The spectral domain integral equation(SDIE) provides an accurate and efficient method for computing the resonant frequency, radiation patterns, etc. Using continuous Fourier transform, the formulation utilizes the singular integral equations via the Glerkin's method to derive the deterministic equation with fewer mathematical manipulations. In contrast, discrete Fourier transform(DFT) requires intricate mathematical labor. The present scheme requires a small size, i. e., (2 x 2) matrix, and it is possible to extract higher order modal solutions conveniently. Moreover, computation is reduced with the same convergence properties. Based on the present scheme, some results for resonant frequency and radiation patterns compared with available data and computed current distribution on the patch are presented.
This paper explains the design of a Universal (Low, High, Band and Notch) Second-Order Filter using switched capacitor (SC) technique. The design depends on the crystal oscillator circuit that generates two non-overlapping clocks by making full use of the two independent comparators of the LM741. The oscillator circuit is used to drive a switched-capacitor integrator which is used in the design of the universal second order filter. The circuit is performed as a single IC (Integrated circuit) which can be used for different standard applications. The proposed IC design differs than other IC's such as MF10 by adding the notch filter to this design for used in wide band of applications. The design is simulated using MultiSim 9 program.
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