论文信息 - Frequency-dependent parameterized macromodeling of integrated inductors

Frequency-dependent parameterized macromodeling of integrated inductors

Integrated inductors are one of the most important passive elements in radio frequency design, due to their wide usage in wireless communication circuits. Typically, electromagnetic simulators are used in order to estimate the inductors performance with high accuracy as a function of the inductor geometrical and electrical parameters. Such simulations offer high-accuracy, but are computationally expensive and extremely time consuming. In this paper, a frequency-dependent parameterized macromodeling technique is adopted in order to overcome this problem. The proposed approach offers a high degree of automation, since it is based on sequential sampling algorithms, high efficiency and flexibility: a continuous frequency-domain model is given for each value of the chosen inductors parameters in the design space.

[1] Tom Dhaene,et al. Parametric macromodeling based on amplitude and frequency scaled systems with guaranteed passivity , 2012 .

[2] A. Semlyen,et al. Rational approximation of frequency domain responses by vector fitting , 1999 .

[3] Tom Dhaene,et al. Scalable models of microwave system responses using sequential sampling on unstructured grids , 2014 .

[4] Ali M. Niknejad. Electromagnetics for High-Speed Analog and Digital Communication Circuits: Distributed circuits , 2007 .

[5] T. Dhaene,et al. Efficient Algorithm for Passivity Enforcement of $S$-Parameter-Based Macromodels , 2009, IEEE Transactions on Microwave Theory and Techniques.

[6] Giampietro Allasia,et al. Simultaneous Interpolation and Approximation by a Class of Multivariate Positive Operators , 2003, Numerical Algorithms.