A Tensor Algebraic Model of On-chip Monolithic Transformer

Citation

Banchuin R., & Chaisricharoen R. (2018, July). A tensor algebraic model of On-chip monolithic transformer. In 2018 15th International Conference on Electrical Engineering/Electronics, Computer, Telecommunications and Information Technology (ECTI-CON). n.p.: IEEE.

ABSTRACT

A tensor algebraic model of on-chip monolithic transformer has been proposed where the effects of imperfect coupling which is typical for on-chip monolithic transformer, have also been considered. Unlike the traditional modelling as a simple linear function of complex frequency, the impedance of each winding has been mathematically modelled in term of arbitrary order rational polynomial in s-domain for covering any possible electrical impedance characteristic of the winding including those frequency dependents. It has been found that the proposed model which is applicable to on-chip monolithic transformer with arbitrary primary and secondary windings can accurately capture the characteristics of voltages and currents of the candidate transformer for various decades of frequency.

Keywords: on-chip monolithic transformer, imperfect coupling, tensor algebra.

Link to Publication 

Manuscript

A Tensor Algebraic Model of On-chip Monolithic Transformer

Graduate Schools, Siam University, Bangkok, Thailand

Related:

• The time dimensional measurability aware FDE based analysis of active circuit in the fractional domain
• On The Fractional domain Generalization of Memristive Parametric Oscillators
• An SDE based Stochastic Analysis of Transformer
• A Tensor Algebraic Model of On-chip Monolithic Transformer 
• Time Domain FDE Based Analysis of Active Fractional Circuit
• The Analysis of Active Circuit in Fractional Domain
• Alpha Power Law Based Model of Random Variation in Nanometer FGMOSFET
• Novel expressions for time domain responses of fractance device
• Analysis of Random Variation in Subthreshold FGMOSFET