Title :
Synthesis of nonuniform transmission lines with terminal discontinuities
Author :
Klemer, David P. ; Sharpe, Charles B.
Author_Institution :
Steinbrecher Corp., Woburn, MA, USA
fDate :
2/1/1988 12:00:00 AM
Abstract :
An integral equation was previously derived by the authors (ibid., vol.AP-34, p.546-53, Apr. 1986) for the inverse problem associated with finite-length nonuniform lines having known impedance discontinuities at the input and output. A procedure for determining the characteristic impedance profile of the line from the solution of the integral equation was also presented. Here, the numerical aspects of this inverse problem are treated. This equation is solved using general expansions of both the kernel and unknown functions, thereby reducing the integral equation to a system of linear algebraic equations. This makes possible a numerical implementation of the theory by which the impedance profile of a nonuniform line may be reconstructed from given spectral data. The realizability aspects of the problem are treated and several examples of computer-assisted profile inversion are presented
Keywords :
integral equations; transmission line theory; characteristic impedance profile; computer-assisted profile inversion; integral equation; kernel; linear algebraic equations; nonuniform transmission lines; spectral data; terminal discontinuities; unknown functions; Distributed parameter circuits; Helium; Impedance; Integral equations; Inverse problems; Kernel; Quantum mechanics; Reflection; Transmission line discontinuities; Voltage;
Journal_Title :
Antennas and Propagation, IEEE Transactions on
