论文信息 - High-Q Resistance-Capacitance Ladder Phase-Shift Networks

High-Q Resistance-Capacitance Ladder Phase-Shift Networks

Resistance-capacitance ladder lowpass networks, to obtain a phase shift (\phi) of 180° between the input and the output, are examined. It is found that there exists a theoretical maximum value ofQ, defined by\omega_0/2 |d\phi/d\omega| \omega = \omega_0where\omega_0is the frequency at which the phase shift is 180°. This theoretical limit can be approached in actual practice, but never reached. It is attempted to synthesize such networks having as high aQas possible. In addition, the resulting network possesses the property that the open-circuit input impedance and the short-circuit output admittance are simultaneously maximized. A transformation enables one to get the corresponding highpass structure from the lowpass.

V. Ramachandran | G. Prabhavathi | V. Ramachandran | G. Prabhavathi

[1] D. Youla,et al. Analysis and Synthesis of Arbitrarily Terminated Lossless Nonuniform Lines , 1964 .

[2] V. A. Marchenko,et al. The Inverse Problem of Scattering Theory , 1963 .

[3] R. Klopfenstein. A Transmission Line Taper of Improved Design , 1956, Proceedings of the IRE.

[4] I. Gel'fand,et al. On the determination of a differential equation from its spectral function , 1955 .

[5] N. Wiener,et al. Fourier Transforms in the Complex Domain , 1934 .

[6] B. Seckler,et al. The Inverse Problem in the Quantum Theory of Scattering... , 1964 .

[7] M. Wohlers. A Realizability Theory for Smooth Lossless Transmission Lines , 1966 .

[8] C. Sharpe. The synthesis of infinite lines , 1963 .