Proof and Application of Complex Impedance of Inductor and Capacitor

Sheng Guo Zhang; Xiao Ping Dang

doi:10.4028/www.scientific.net/AMM.568-570.1213

Paper Titles

Research on Three-Phase Calibration Method of HV Three-Phase Combined Transformer and its Implementation
p.1191

Simulation Research of Tapered Sidewall Trench Superjunction MOSFETs
p.1196

The Research on Static Characteristics of 3300V/50A Planner NPT-IGBT
p.1201

Transient Analysis for Multi-Conductor Transmission Lines Based on FDTD Method
p.1207

Proof and Application of Complex Impedance of Inductor and Capacitor
p.1213

Research on Multi-Mode Controller of Switching Power Supply
p.1217

Study on Simplified Model for PV System Based on Functional Equivalence
p.1221

Package Design of High Power IGBT Module for Electric Vehicle
p.1227

The Voltage Balance Control Strategy of the Sub-Module Capacitor in STATCOM
p.1232

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 568-570Proof and Application of Complex Impedance of...

Proof and Application of Complex Impedance of Inductor and Capacitor

Abstract:

This paper aims at proving the complex impedance of the inductor and capacitor elements and applying the proved complex impedance concept to directly obtain the transfer function model of the complicated circuit network. Based on Laplace Transformation method, the complex impedances of the inductor and capacitor elements are proved. Using the proved complex impedances and the equivalent complex impedances in series and in parallel, both the transfer functions of the passive and active circuit networks are modeled. This facilitates the transfer function modeling of the complicated circuit network very much.