miller-book/node133.html

<!DOCTYPE html>

<!--Converted with LaTeX2HTML 2002-2-1 (1.71)
original version by:  Nikos Drakos, CBLU, University of Leeds
* revised and updated by:  Marcus Hennecke, Ross Moore, Herb Swan
* with significant contributions from:
  Jens Lippmann, Marek Rouchal, Martin Wilck and others -->
<HTML>
<HEAD>

<meta name="viewport" content="width=device-width, initial-scale=1.0">


<TITLE>Elementary non-recirculating filter</TITLE>
<META NAME="description" CONTENT="Elementary non-recirculating filter">
<META NAME="keywords" CONTENT="book">
<META NAME="resource-type" CONTENT="document">
<META NAME="distribution" CONTENT="global">

<META NAME="Generator" CONTENT="LaTeX2HTML v2002-2-1">
<META HTTP-EQUIV="Content-Style-Type" CONTENT="text/css">

<LINK REL="STYLESHEET" HREF="book.css">

<LINK REL="next" HREF="node134.html">
<LINK REL="previous" HREF="node132.html">
<LINK REL="up" HREF="node132.html">
<LINK REL="next" HREF="node134.html">
</HEAD>

<BODY >
<!--Navigation Panel-->
<A ID="tex2html2567"
  HREF="node134.html">
<IMG WIDTH="37" HEIGHT="24" ALIGN="BOTTOM" BORDER="0" ALT="next"
 SRC="next.png"></A> 
<A ID="tex2html2561"
  HREF="node132.html">
<IMG WIDTH="26" HEIGHT="24" ALIGN="BOTTOM" BORDER="0" ALT="up"
 SRC="up.png"></A> 
<A ID="tex2html2555"
  HREF="node132.html">
<IMG WIDTH="63" HEIGHT="24" ALIGN="BOTTOM" BORDER="0" ALT="previous"
 SRC="prev.png"></A> 
<A ID="tex2html2563"
  HREF="node4.html">
<IMG WIDTH="65" HEIGHT="24" ALIGN="BOTTOM" BORDER="0" ALT="contents"
 SRC="contents.png"></A> 
<A ID="tex2html2565"
  HREF="node201.html">
<IMG WIDTH="43" HEIGHT="24" ALIGN="BOTTOM" BORDER="0" ALT="index"
 SRC="index.png"></A> 
<BR>
<B> Next:</B> <A ID="tex2html2568"
  HREF="node134.html">Non-recirculating filter, second form</A>
<B> Up:</B> <A ID="tex2html2562"
  HREF="node132.html">Elementary filters</A>
<B> Previous:</B> <A ID="tex2html2556"
  HREF="node132.html">Elementary filters</A>
 &nbsp; <B>  <A ID="tex2html2564"
  HREF="node4.html">Contents</A></B> 
 &nbsp; <B>  <A ID="tex2html2566"
  HREF="node201.html">Index</A></B> 
<BR>
<BR>
<!--End of Navigation Panel-->

<H2><A ID="SECTION001221000000000000000"></A>
<A ID="sect8.nonrecirculating"></A>
<BR>
Elementary non-recirculating filter
</H2>

<P>
The non-recirculating comb
filter may be generalized to yield the design shown in Figure <A HREF="#fig08.07">8.7</A>.
This is the
<A ID="10133"></A><A ID="10134"></A><I>elementary non-recirculating filter</I>,
of the first form.  Its single, complex-valued parameter <IMG
 WIDTH="16" HEIGHT="30" ALIGN="MIDDLE" BORDER="0"
 SRC="img42.png"
 ALT="$Q$"> controls the
complex gain of the delayed signal subtracted from the original one.

<P>

<DIV ALIGN="CENTER"><A ID="fig08.07"></A><A ID="10680"></A>
<TABLE>
<CAPTION ALIGN="BOTTOM"><STRONG>Figure 8.7:</STRONG>
A delay network with a single-sample delay and a complex
gain <IMG
 WIDTH="16" HEIGHT="30" ALIGN="MIDDLE" BORDER="0"
 SRC="img42.png"
 ALT="$Q$">.  This is the non-recirculating elementary filter, first form.  Compare
the non-recirculating comb filter shown in Figure <A HREF="node108.html#fig07.03">7.3</A>,
which corresponds to choosing <IMG
 WIDTH="57" HEIGHT="30" ALIGN="MIDDLE" BORDER="0"
 SRC="img43.png"
 ALT="$Q=-1$"> here.</CAPTION>
<TR><TD><IMG
 WIDTH="90" HEIGHT="210" BORDER="0"
 SRC="img860.png"
 ALT="\begin{figure}\psfig{file=figs/fig08.07.ps}\end{figure}"></TD></TR>
</TABLE>
</DIV>

<P>
To find its frequency response, as in Chapter 7 we feed the delay network
a complex sinusoid <!-- MATH
 $1, Z, {Z^2}, \ldots$
 -->
<IMG
 WIDTH="81" HEIGHT="34" ALIGN="MIDDLE" BORDER="0"
 SRC="img664.png"
 ALT="$1, Z, {Z^2}, \ldots$"> whose frequency is <!-- MATH
 $\omega=\arg(Z)$
 -->
<IMG
 WIDTH="81" HEIGHT="32" ALIGN="MIDDLE" BORDER="0"
 SRC="img861.png"
 ALT="$\omega=\arg(Z)$">.
The <IMG
 WIDTH="13" HEIGHT="13" ALIGN="BOTTOM" BORDER="0"
 SRC="img75.png"
 ALT="$n$">th sample of the input is <IMG
 WIDTH="24" HEIGHT="14" ALIGN="BOTTOM" BORDER="0"
 SRC="img653.png"
 ALT="$Z^n$"> and that of the output
is
<BR><P></P>
<DIV ALIGN="CENTER">
<!-- MATH
 \begin{displaymath}
(1 - Q{Z^{-1}}){Z^n}
\end{displaymath}
 -->

<IMG
 WIDTH="99" HEIGHT="28" BORDER="0"
 SRC="img862.png"
 ALT="\begin{displaymath}
(1 - Q{Z^{-1}}){Z^n}
\end{displaymath}">
</DIV>
<BR CLEAR="ALL">
<P></P>
so the transfer function is
<BR><P></P>
<DIV ALIGN="CENTER">
<!-- MATH
 \begin{displaymath}
H(Z) = 1 - Q{Z^{-1}}
\end{displaymath}
 -->

<IMG
 WIDTH="128" HEIGHT="28" BORDER="0"
 SRC="img863.png"
 ALT="\begin{displaymath}
H(Z) = 1 - Q{Z^{-1}}
\end{displaymath}">
</DIV>
<BR CLEAR="ALL">
<P></P>
This can be analyzed graphically as shown in Figure <A HREF="#fig08.08">8.8</A>.
The real numbers
<IMG
 WIDTH="11" HEIGHT="13" ALIGN="BOTTOM" BORDER="0"
 SRC="img467.png"
 ALT="$r$"> and <IMG
 WIDTH="13" HEIGHT="13" ALIGN="BOTTOM" BORDER="0"
 SRC="img7.png"
 ALT="$\alpha $"> are the magnitude and argument of the complex number <IMG
 WIDTH="16" HEIGHT="30" ALIGN="MIDDLE" BORDER="0"
 SRC="img42.png"
 ALT="$Q$">:
<BR><P></P>
<DIV ALIGN="CENTER">
<!-- MATH
 \begin{displaymath}
Q = r \cdot (\cos(\alpha) + i \sin(\alpha))
\end{displaymath}
 -->

<IMG
 WIDTH="178" HEIGHT="28" BORDER="0"
 SRC="img864.png"
 ALT="\begin{displaymath}
Q = r \cdot (\cos(\alpha) + i \sin(\alpha))
\end{displaymath}">
</DIV>
<BR CLEAR="ALL">
<P></P>
The gain of the filter is the distance from the point <IMG
 WIDTH="16" HEIGHT="30" ALIGN="MIDDLE" BORDER="0"
 SRC="img42.png"
 ALT="$Q$"> to the point <IMG
 WIDTH="15" HEIGHT="14" ALIGN="BOTTOM" BORDER="0"
 SRC="img20.png"
 ALT="$Z$">
in the complex plane.  Analytically we can see this because
<BR><P></P>
<DIV ALIGN="CENTER">
<!-- MATH
 \begin{displaymath}
|1 - Q{Z^{-1}}| = |Z||1 - Q{Z^{-1}}| = |Q - Z|
\end{displaymath}
 -->

<IMG
 WIDTH="268" HEIGHT="28" BORDER="0"
 SRC="img865.png"
 ALT="\begin{displaymath}
\vert 1 - Q{Z^{-1}}\vert = \vert Z\vert\vert 1 - Q{Z^{-1}}\vert = \vert Q - Z\vert
\end{displaymath}">
</DIV>
<BR CLEAR="ALL">
<P></P>
Graphically, the number <IMG
 WIDTH="45" HEIGHT="34" ALIGN="MIDDLE" BORDER="0"
 SRC="img866.png"
 ALT="$Q{Z^{-1}}$"> is just the number <IMG
 WIDTH="16" HEIGHT="30" ALIGN="MIDDLE" BORDER="0"
 SRC="img42.png"
 ALT="$Q$"> rotated backwards
(clockwise) by the angular frequency <IMG
 WIDTH="14" HEIGHT="13" ALIGN="BOTTOM" BORDER="0"
 SRC="img27.png"
 ALT="$\omega $"> of the incoming sinusoid.  The
value <!-- MATH
 $|1 - Q{Z^{-1}}|$
 -->
<IMG
 WIDTH="81" HEIGHT="34" ALIGN="MIDDLE" BORDER="0"
 SRC="img867.png"
 ALT="$\vert 1 - Q{Z^{-1}}\vert$"> is the distance from <IMG
 WIDTH="45" HEIGHT="34" ALIGN="MIDDLE" BORDER="0"
 SRC="img866.png"
 ALT="$Q{Z^{-1}}$"> to <IMG
 WIDTH="11" HEIGHT="13" ALIGN="BOTTOM" BORDER="0"
 SRC="img262.png"
 ALT="$1$"> in the complex
plane, which is equal to the distance from <IMG
 WIDTH="16" HEIGHT="30" ALIGN="MIDDLE" BORDER="0"
 SRC="img42.png"
 ALT="$Q$"> to <IMG
 WIDTH="15" HEIGHT="14" ALIGN="BOTTOM" BORDER="0"
 SRC="img20.png"
 ALT="$Z$">.

<P>

<DIV ALIGN="CENTER"><A ID="fig08.08"></A><A ID="10688"></A>
<TABLE>
<CAPTION ALIGN="BOTTOM"><STRONG>Figure 8.8:</STRONG>
Diagram for calculating the frequency response of the
non-recirculating elementary filter
(Figure <A HREF="#fig08.07">8.7</A>).  The frequency response is given by the length of the
segment connecting <IMG
 WIDTH="15" HEIGHT="14" ALIGN="BOTTOM" BORDER="0"
 SRC="img20.png"
 ALT="$Z$"> to <IMG
 WIDTH="16" HEIGHT="30" ALIGN="MIDDLE" BORDER="0"
 SRC="img42.png"
 ALT="$Q$"> in the complex plane.</CAPTION>
<TR><TD><IMG
 WIDTH="341" HEIGHT="379" BORDER="0"
 SRC="img868.png"
 ALT="\begin{figure}\psfig{file=figs/fig08.08.ps}\end{figure}"></TD></TR>
</TABLE>
</DIV>

<P>
As the frequency of the input sweeps from 0 to <IMG
 WIDTH="21" HEIGHT="13" ALIGN="BOTTOM" BORDER="0"
 SRC="img16.png"
 ALT="$2\pi $">, the point <IMG
 WIDTH="15" HEIGHT="14" ALIGN="BOTTOM" BORDER="0"
 SRC="img20.png"
 ALT="$Z$"> travels
couterclockwise around the unit circle.  At the point where <!-- MATH
 $\omega = \alpha$
 -->
<IMG
 WIDTH="45" HEIGHT="13" ALIGN="BOTTOM" BORDER="0"
 SRC="img869.png"
 ALT="$\omega = \alpha$">,
the distance is at a minimum, equal to <IMG
 WIDTH="38" HEIGHT="29" ALIGN="MIDDLE" BORDER="0"
 SRC="img870.png"
 ALT="$1-r$">.  The maximum occurs which <IMG
 WIDTH="15" HEIGHT="14" ALIGN="BOTTOM" BORDER="0"
 SRC="img20.png"
 ALT="$Z$"> is
at the opposite point of the circle.  Figure <A HREF="#fig08.09">8.9</A> shows the transfer
function for three different values of <IMG
 WIDTH="53" HEIGHT="32" ALIGN="MIDDLE" BORDER="0"
 SRC="img44.png"
 ALT="$r=\vert Q\vert$">.

<P>

<DIV ALIGN="CENTER"><A ID="fig08.09"></A><A ID="10689"></A>
<TABLE>
<CAPTION ALIGN="BOTTOM"><STRONG>Figure 8.9:</STRONG>
Frequency response of the elementary non-recirculating filter
Figure <A HREF="#fig08.07">8.7</A>.  Three values of <IMG
 WIDTH="16" HEIGHT="30" ALIGN="MIDDLE" BORDER="0"
 SRC="img42.png"
 ALT="$Q$"> are used, all with the
same argument (-2 radians), but with varying absolute value (magnitude) <IMG
 WIDTH="53" HEIGHT="32" ALIGN="MIDDLE" BORDER="0"
 SRC="img44.png"
 ALT="$r=\vert Q\vert$">.</CAPTION>
<TR><TD><IMG
 WIDTH="323" HEIGHT="212" BORDER="0"
 SRC="img871.png"
 ALT="\begin{figure}\psfig{file=figs/fig08.09.ps}\end{figure}"></TD></TR>
</TABLE>
</DIV>

<P>
<HR>
<!--Navigation Panel-->
<A ID="tex2html2567"
  HREF="node134.html">
<IMG WIDTH="37" HEIGHT="24" ALIGN="BOTTOM" BORDER="0" ALT="next"
 SRC="next.png"></A> 
<A ID="tex2html2561"
  HREF="node132.html">
<IMG WIDTH="26" HEIGHT="24" ALIGN="BOTTOM" BORDER="0" ALT="up"
 SRC="up.png"></A> 
<A ID="tex2html2555"
  HREF="node132.html">
<IMG WIDTH="63" HEIGHT="24" ALIGN="BOTTOM" BORDER="0" ALT="previous"
 SRC="prev.png"></A> 
<A ID="tex2html2563"
  HREF="node4.html">
<IMG WIDTH="65" HEIGHT="24" ALIGN="BOTTOM" BORDER="0" ALT="contents"
 SRC="contents.png"></A> 
<A ID="tex2html2565"
  HREF="node201.html">
<IMG WIDTH="43" HEIGHT="24" ALIGN="BOTTOM" BORDER="0" ALT="index"
 SRC="index.png"></A> 
<BR>
<B> Next:</B> <A ID="tex2html2568"
  HREF="node134.html">Non-recirculating filter, second form</A>
<B> Up:</B> <A ID="tex2html2562"
  HREF="node132.html">Elementary filters</A>
<B> Previous:</B> <A ID="tex2html2556"
  HREF="node132.html">Elementary filters</A>
 &nbsp; <B>  <A ID="tex2html2564"
  HREF="node4.html">Contents</A></B> 
 &nbsp; <B>  <A ID="tex2html2566"
  HREF="node201.html">Index</A></B> 
<!--End of Navigation Panel-->
<ADDRESS>
Miller Puckette
2006-12-30
</ADDRESS>
</BODY>
</HTML>