2018
DOI: 10.13164/re.2018.1112
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Chained-Function Filter Synthesis Based on the Modified Jacobi Polynomials

Abstract: A new class of filter functions with pass-band ripple which derives its origin from a method of determining the chained function lowpass filters described by Guglielmi and Connor is introduced. The closed form expressions of the characteristic functions of these filters are derived by using orthogonal Jacobi polynomial. Since the Jacobi polynomials can not be used directly as filtering function, these polynomials have been adapted by using the parity relation for Jacobi polynomials in order to be used as a fil… Show more

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Cited by 5 publications
(7 citation statements)
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“…Practical chained-function filters have previously been demonstrated in microstrip transmission line [28] and metalpipe rectangular waveguides [13], [29]- [32]. In 2017, non-Chebyshev seed functions were introduced into CFFs; for example, with Legendre [33], Jacobi [34] and then elliptical [32] polynomials.…”
Section: Chained-function Filtersmentioning
confidence: 99%
“…Practical chained-function filters have previously been demonstrated in microstrip transmission line [28] and metalpipe rectangular waveguides [13], [29]- [32]. In 2017, non-Chebyshev seed functions were introduced into CFFs; for example, with Legendre [33], Jacobi [34] and then elliptical [32] polynomials.…”
Section: Chained-function Filtersmentioning
confidence: 99%
“…The formulation of chained-elliptic functions follows the same transfer function approximation for classical filters [5][6][7]. The general representation of the squared magnitude response is in the following form:…”
Section: Polynomial Generationmentioning
confidence: 99%
“…The reduction in selectivity and rejection properties will greatly compromise the performance of the filter, especially in narrow-band applications that require high selectivity due to the stringent spectrum utilization. Recent studies on modifying chained-function polynomials have been introduced in [7,8], but the resulting transfer functions are all-pole functions, which limit the selectivity and close-to-band rejection improvement.…”
Section: Introductionmentioning
confidence: 99%
“…The chained function on the other hand can be found to compromise between Butterworth and Chebyshev approximations [10], [11] because it could combine the advantages of both Butterworth functions (lower filter losses, lower sensitivity, and lower resonator unloaded-Q factor) and Chebyshev functions (i.e., higher out-of-band and higher selectivity rejection) [12]. The technique of chained transfer functions can reduce filter complexity, manufacturing tolerance, and, most importantly, post-manufacturing tuning processes [4], [13]. This technique has the potential to extend the state-of-the-art development in a highperformance tuning-less filter toward higher operating frequencies and narrow bandwidth applications [5].…”
Section: Introductionmentioning
confidence: 99%