Title :
High Precision LC Ladder Synthesis Part II: Immittance Synthesis With Transmission Zeros at DC and Infinity
Author :
Yarman, B.S. ; Kilinc, Ali
Author_Institution :
Dept. of Electr.-Electron. Eng., Istanbul Univ., Istanbul, Turkey
Abstract :
In this paper, a novel, high precision bandpass LC ladder synthesis algorithm is presented. The new algorithm directly works on the rational form of a positive real driving point input immittance F(p)=a(p)/b(p) which describes a bandpass LC ladder network in resistive termination. In the new method, firstly, poles at p=0 are removed from F(p), then remaining poles at infinity are extracted. After each pole extraction, coefficients of the polynomial a(p) and b(p) are refined employing the parametric approach to yield an exact bandpass LC ladder which in turn prevents the accumulation of the numerical errors in the course of synthesis. Thus, at the end of synthesis process, a bandpass LC ladder is obtained with high numerical precision.
Keywords :
LC circuits; electric immittance; numerical analysis; bandpass LC ladder network; high precision LC ladder synthesis; high precision bandpass LC ladder synthesis algorithm; immittance synthesis; numerical errors; numerical precision; pole extraction; positive real driving point input immittance; resistive termination; synthesis process; transmission zeros; Darlington´s driving point immittance synthesis; lowpass LC ladders; matching network synthesis; network synthesis; real frequency techniques;
Journal_Title :
Circuits and Systems I: Regular Papers, IEEE Transactions on
DOI :
10.1109/TCSI.2013.2244315
