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This paper considers the optimization of analog filters which are not covered by classical approaches like Butterworth, Chebyshev, or Cauer approximations. Therefore, a novel and highly efficient method for analog filter design using nonlinear optimization is presented. This approach enables high flexibility and easy handling as compared to existing approximation techniques. By describing particular design specifications as constraints, a solution can be obtained by using suitable optimization software. Apart from the straightforward approximation of filter transfer functions, this approach is extensible to consider coefficient uncertainties of component variations. Furthermore, it can be used to synthesize filters comprised of only real poles. Examples are also provided to validate the benefits of the resulting design method.
Published in:
Signals, Systems and Electronics, 2007. ISSSE '07. International Symposium on
Date of Conference: July 30 2007-Aug. 2 2007
- Page(s):
- 9 - 12
- E-ISBN :
- 1-4244-1449-0
- Print ISBN:
- 1-4244-1448-2
- INSPEC Accession Number:
- 9801078
- Conference Location :
- Montreal, Que.
- Digital Object Identifier :
- 10.1109/ISSSE.2007.4294401
- Product Type:
- Conference Publications
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