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{{lowercase}}
{{Linear analog electronic filter|filter1=hide|filter3=hide}}
 
'''m-derived filters''' or '''m-type filters''' are a type of [[electronic filter]] designed using the [[Image impedance|image]] method. They were invented by [[Otto Zobel]] in the early 1920s.<ref>[[Vitold Belevitch|Belevitch, V]], "Summary of the history of circuit theory", ''Proceedings of the IRE'', '''vol 50''', Iss 5, pp.849, May 1962.</ref> This filter type was originally intended for use with telephone [[multiplexing]] and was an improvement on the existing [[Constant k filter|constant k type filter]].<ref>Bray, J, ''Innovation and the Communications Revolution'', p.62, Institute of Electrical Engineers, 2002 ISBN 0-85296-218-5.</ref> The main problem being addressed was the need to achieve a better match of the filter into the terminating impedances. In general, all filters designed by the image method fail to give an exact match, but the m-type filter is a big improvement with suitable choice of the parameter m. The m-type filter section has a further advantage in that there is a rapid transition from the [[cut-off frequency]] of the [[pass band]] to a [[pole (complex analysis)|pole]] of [[attenuation]] just inside the [[Stopband|stop band]]. Despite these advantages, there is a drawback with m-type filters; at frequencies past the pole of attenuation, the response starts to rise again, and m-types have poor stop band rejection. For this reason, filters designed using m-type sections are often designed as [[Composite image filter|composite filters]] with a mixture of k-type and m-type sections and different values of m at different points to get the optimum performance from both types.<ref>Zobel, pp. 16–19.</ref>
<br style="clear:right;"/>
{| class="toccolours" style="float: right; margin-left: 1em;; background:#c6dbf7; color:black; width:21em; max-width: 40%;" cellspacing="5"
|-
| style="text-align: center;"|'''Midpoint impedance'''
|-
|style="text-align: left; font-size: 90%;" |The parameter '''m''' is given this symbol because of its association with '''midpoint impedance''', a concept used by Zobel in his original treatment of the subject. Midpoint impedance arises in the following way. In this article and most modern textbooks, the starting point is the simple half-section, and more complex filters are built up from this. In Zobel's treatment and that of his contemporaries, the starting point is always the infinite ladder network. A "mid-series" section is derived by "cutting through the middle" of the series impedance Z and results in a T section. The image impedance Z<sub>iT</sub> is referred to as the mid-series image impedance. Similarly, a "mid-shunt" section is derived by cutting through the middle of the shunt admittance Y and results in a Π section with a mid-shunt image impedance. A "series m-derived section" is shorthand for "mid-series derived ladder type section". This makes it clear that the word ''series'' is referring to the ends of the T section being (half) a series component and not as is sometimes thought, because the additional component is in series with the shunt element. Similarly, "shunt m-derived section" is shorthand for "mid-shunt derived ladder type section".<ref>Zobel, O J, ''Electrical wave filters'', {{US patent|1850146}}, pp. 2–3, filed 25 Nov 1930, issued 22 Mar 1932.</ref>
|}
 
__TOC__
 
==Background==
Zobel patented an impedance matching network in 1920<ref>Zobel, O J, ''Terminating network for filters'', {{US patent|1557229}}, filed 30 April 1920, issued 13 Oct 1925.</ref> which, in essence, used the topology of what are now called m-type filters, but Zobel did not name them as such or analyse them by the image method. This pre-dated [[George Ashley Campbell|George Campbell]]'s publication of his constant k-type design in 1922 on which the m-type filter is based.<ref>Campbell, G A, "Physical Theory of the Electric Wave-Filter", ''Bell System Tech J'', November 1922, vol 1, no 2, pp. 1–32.</ref> Zobel published the image analysis theory of m-type filters in 1923.<ref>Zobel, O. J.,''Theory and Design of Uniform and Composite Electric Wave Filters'', Bell Systems Technical Journal, Vol. 2 (1923), pp. 1–46.</ref>  Once popular, M-type filters and image parameter designed filters in general are now rarely designed, having been superseded by more advanced [[Network synthesis filter|network synthesis]] methods.<ref>Roberto Sorrentino, ''Electronic filter simulation & design'', p. 57, McGraw-Hill Professional, 2007 ISBN 0-07-149467-7.</ref>
<br style="clear:right;"/>
 
==Derivation==
[[File:M-Derived Series Filter Half-section.svg|thumb|right|250px|m-derived series general filter half section.]]
[[File:M-Derived Shunt Low-pass Filter Half-section.svg|thumb|right|250px|m-derived shunt low-pass filter half section.<br><math>C= \frac{L}{R_0^2}</math>]]
 
The building block of m-derived filters, as with all image impedance filters, is the "L" network, called a half-section and composed of a series [[Electrical impedance|impedance]] ''Z'', and a shunt [[admittance]] ''Y''. The m-derived filter is a derivative of the [[constant k filter]]. The starting point of the design is the values of ''Z'' and ''Y'' derived from the constant k prototype and are given by
 
: <math>k^2=\frac{Z}{Y}</math>
 
where ''k'' is the nominal impedance of the filter, or ''R''<sub>0</sub>. The designer now multiplies ''Z'' and ''Y'' by an arbitrary constant ''m'' (0 < ''m'' < 1). There are two different kinds of m-derived section; series and shunt. To obtain the m-derived series half section, the designer determines the impedance that must be added to 1/mY to make the image impedance ''Z''<sub><code>iT</code></sub> the same as the image impedance of the original constant k section. From the [[Image impedance#Derivation|general formula for image impedance]], the additional impedance required can be shown to be<ref>Matthaei, p. 64.</ref>
 
: <math>\frac{1-m^2}{m}Z.</math>
 
To obtain the m-derived shunt half section, an admittance is added to 1/mZ to make the image impedance Z<sub><code>iΠ</code></sub> the same as the image impedance of the original half section. The additional admittance required can be shown to be<ref>Matthaei, p.66.</ref>
 
: <math>\frac{1-m^2}{m}Y.</math>
 
The general arrangements of these circuits are shown in the diagrams to the right along with a specific example of a low pass section.
 
A consequence of this design is that the m-derived half section will match a k-type section on one side only. Also, an m-type section of one value of m will not match another m-type section of another value of m except on the sides which offer the Z<sub><code>i</code></sub> of the k-type.<ref name=Matt65>Matthaei, p. 65.</ref>
 
===Operating frequency===
For the low-pass half section shown, the cut-off frequency of the m-type is the same as the k-type and is given by
 
: <math>\omega_c=\frac{1}{\sqrt{LC}}.</math>
 
The pole of attenuation occurs at;
 
: <math>\omega_\infin=\frac{\omega_c}{\sqrt{1-m^2}}.</math>
 
From this it is clear that smaller values of m will produce <math>\omega_\infin</math> closer to the cut-off frequency <math>\omega_c\,\!</math> and hence will have a sharper cut-off. Despite this cut-off, it also brings the unwanted stop band response of the m-type closer to the cut-off frequency, making it more difficult for this to be filtered with subsequent sections. The value of m chosen is usually a compromise between these conflicting requirements. There is also a practical limit to how small m can be made due to the inherent resistance of the inductors. This has the effect of causing the pole of attenuation to be less deep (that is, it is no longer a genuinely infinite pole) and the slope of cut-off to be less steep. This effect becomes more marked as <math>\omega_\infin</math> is brought closer to <math>\omega_c\,\!</math>, and there ceases to be any improvement in response with an m of about 0.2 or less.<ref name=Matt65/><ref>Bode, Hendrik W., ''Wave Filter'', {{US patent|2002216}}, p. 1 c. 1 ll.14–26, filed 7 June 1933, issued 21 May 1935.</ref><ref>Alan Keith Walton, ''Network analysis and practice'', pp. 197, 203, Cambridge University Press, 1987 ISBN 0-521-31903-X.</ref>
 
===Image impedance===
{{See also|Image impedance#Derivation}}
[[File:M-Derived Low-pass Image Impedance.svg|thumb|right|300px|m-derived prototype shunt low-pass filter Z<sub>iTm</sub> image impedance for various values of ''m''. Values below cut-off frequency only shown for clarity.]]
The following expressions for image impedances are all referenced to the low-pass prototype section. They are scaled to the nominal impedance ''R''<sub>0</sub> = 1, and the frequencies in those expressions are all scaled to the cut-off frequency ω<sub>c</sub> = 1.
 
====Series sections====
The image impedances of the series section are given by<ref name=Matt63>Matthaei, p. 63.</ref>
 
: <math>Z_{iT}=\sqrt{1-\omega^2}</math>
 
and is the same as that of the constant k section
 
: <math>Z_{i\Pi m}=\frac{1-\left(\omega/\omega_\infin\right)^2}{\sqrt{1-\omega^2}}.</math>
 
====Shunt sections====
The image impedances of the shunt section are given by<ref name=Matt65/>
 
: <math>Z_{i\Pi}=\frac{1}{\sqrt{1-\omega^2}}</math>
 
and is the same as that of the constant k section
 
: <math>Z_{iT m}=\frac{\sqrt{1-\omega^2}}{1-\left(\omega/\omega_\infin\right)^2}</math>
 
As with the k-type section, the image impedance of the ''m''-type low-pass section is purely real below the cut-off frequency and purely imaginary above it. From the chart it can be seen that in the passband the closest impedance match to a constant pure resistance termination occurs at approximately ''m'' = 0.6.<ref name=Matt63/>
 
===Transmission parameters===
{{See also|Image impedance#Transfer function}}
[[File:M-Derived Low-pass Transfer Function (1 Half-section).svg|thumb|right|300px|m-Derived low-pass filter transfer function for a single half-section]]
For an m-derived section in general the [[transmission parameters]] for a half-section are given by<ref name=Matt63/>
 
:<math>\gamma=\sinh^{-1}\frac{mZ}{\sqrt{k^2+(1-m^2)Z^2}}</math>
 
and for n half-sections
 
:<math>\gamma_n=n\gamma\,\!</math>
 
For the particular example of the low-pass L section, the transmission parameters solve differently in three frequency bands.<ref name=Matt63/>
 
For <math>0<\omega<\omega_c\,\!</math> the transmission is lossless:
 
: <math>\gamma = \alpha + i\beta = 0 + i\frac{1}{2} \cos^{-1} \left(1-\frac{2m^2} {\left(\frac{\omega_c}{\omega}\right)^2 - \left(\frac{\omega_c}{\omega_{\infin}} \right)^2} \right)</math>
 
For <math>\omega_c<\omega<\omega_\infin</math> the transmission parameters are
 
: <math>\gamma = \alpha + i\beta = \frac{1}{2} \cosh^{-1} \left(\frac{2m^2}{\left(\frac{\omega_c}{\omega}\right)^2 - \left( \frac{\omega_c}{\omega_{\infin}} \right)^2} - 1 \right) + i\frac{\pi}{2}</math>
 
For <math>\omega_\infin<\omega<\infin</math> the transmission parameters are
 
: <math>\gamma = \alpha + i\beta = \frac{1}{2} \cosh^{-1} \left(1-\frac{2m^2}{\left(\frac{\omega_c}{\omega}\right)^2 - \left( \frac{\omega_c}{\omega_{\infin}}\right)^2} \right) +i0</math>
 
===Prototype transformations===
The plots shown of image impedance, attenuation and phase change are the plots of a low-pass [[prototype filter]] section. The prototype has a cut-off frequency of ω<sub>c</sub> = 1 rad/s and a nominal impedance R<sub>0</sub> = 1 Ω. This is produced by a filter half-section where L = 1 henry and C = 1 farad. This prototype can be [[Prototype filter#Impedance scaling|impedance scaled]] and [[Prototype filter#Frequency scaling|frequency scaled]] to the desired values. The low-pass prototype can also be [[Transformation (geometry)|transformed]] into high-pass, band-pass or band-stop types by application of suitable [[Prototype filter#Bandform transformation|frequency transformations]].<ref>Matthaei, pp. 60–61 (LPF), 412 (HPF), 438-439 (BPF).</ref>
 
==Cascading sections==
Several L half-sections may be cascaded to form a [[Composite image filter|composite filter]]. Like impedance must always face like in these combinations. There are therefore two circuits that can be formed with two identical L half-sections. Where Z<sub><code>iT</code></sub> faces Z<sub><code>iT</code></sub>, the section is called a <code>Π</code> section. Where Z<sub><code>iΠ</code></sub> faces Z<sub><code>iΠ</code></sub> the section formed is a T section. Further additions of half-sections to either of these forms a ladder network which may start and end with series or shunt elements.<ref>''Redifon Radio Diary, 1970'', pp. 45–48, William Collins Sons & Co, 1969.</ref>
 
It should be born in mind that the characteristics of the filter predicted by the image method are only accurate if the section is terminated with its image impedance. This is usually not true of the sections at either end which are usually terminated with a fixed resistance. The further the section is from the end of the filter, the more accurate the prediction will become since the effects of the terminating impedances are masked by the intervening sections. It is usual to provide half half-sections at the ends of the filter with m = 0.6 as this value gives the flattest Z<sub><code>i</code></sub> in the passband and hence the best match in to a resistive termination.<ref>Matthaei, pp. 72–74.</ref>
 
{{Image filter sections}}
 
==See also==
*[[Image impedance]]
*[[Constant k filter]]
*[[General mn-type image filters|General m<sub>n</sub>-type image filters]]
*[[mm'-type filter]]
*[[Composite image filter]]
 
==References==
{{Reflist|2}}
 
==Bibliography==
:*Mathaei, Young, Jones ''Microwave Filters, Impedance-Matching Networks, and Coupling Structures'' McGraw-Hill 1964 (1980 edition is ISBN 0-89006-099-1).
:*For a simpler treatment of the analysis see,
::*Ghosh, Smarajit, ''Network Theory: Analysis and Synthesis'', Prentice Hall of India, [http://books.google.com/books?id=bYbP7rfG2YYC&pg=RA1-PA564 pp. 564–569] 2005 ISBN 81-203-2638-5.
 
{{Use dmy dates|date=September 2010}}
 
{{Good article}}
 
{{DEFAULTSORT:M-Derived Filter}}
[[Category:Image impedance filters]]
[[Category:Analog circuits]]
[[Category:Electronic filter topology]]

Latest revision as of 18:04, 30 November 2014

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