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Wiley
Approximate Solutions for Nonlinear Diode–RC Circuits: Short Communication Using Lambert W and g ‐Function Approaches
Martin Ćalasan
Preuzmite dokument
2025
ABSTRACT This short communication presents approximate solutions for a nonlinear diode circuit followed by an RC shunt filter. The diode's exponential current–voltage characteristic introduces strong nonlinearity, making the analysis challenging. By applying the Lambert W function, closed‐form approximations of the circuit voltages and currents are derived. These expressions are further enhanced through a g ‐function‐based approach to overcome the numerical limitations of the Lambert W evaluation. The proposed model is validated through MATLAB/SIMSCAPE and PSIM simulations, and further assessed using high‐fidelity software simulations within the Typhoon HIL environment, demonstrating excellent consistency with the reference results. Furthermore, the impact of different diode modeling approaches on the output voltage waveforms is systematically analyzed, revealing a pronounced influence on both amplitude and transient behavior. The presented method thus offers an accurate, computationally efficient, and experimentally confirmed analytical tool for the modeling of nonlinear diode–RC circuits.
Wiley
Approximate Solutions for Nonlinear Diode–RC Circuits: Short Communication Using Lambert W and g ‐Function Approaches
ABSTRACT This short communication presents approximate solutions for a nonlinear diode circuit followed by an RC shunt filter. The diode's exponential current–voltage characteristic introduces strong nonlinearity, making the analysis challenging. By applying the Lambert W function, closed‐form approximations of the circuit voltages and currents are derived. These expressions are further enhanced through a g ‐function‐based...
Preuzmite dokument 2025 Martin Ćalasan
Wiley
Generalized Diode–Series–Parallel Resistance Circuit: Analytical and Approximate Solutions via the g‐Function
ABSTRACT The diode–series–parallel resistance circuit, which includes both series and shunt (parasitic) resistances, represents a generalized framework for diode‐based electrical models with broad applicability in electronics and power engineering. This paper presents analytical and approximate solutions for this circuit, utilizing the g ‐function. To the best of our knowledge, this is the first application of the...
Preuzmite dokument 2025 Martin Ćalasan
Wiley
g‐Function‐Based Approach for Solving Nonlinear Resistor–Inductor–Diode Circuits
ABSTRACTThis brief presents a modeling approach for a nonlinear series resistor–inductor–diode (RLD) circuit powered by either a direct or alternating voltage source—a configuration commonly encountered in power electronics and energy conversion systems. Due to the diode's nonlinear current–voltage characteristic and the inductor's dynamic response, the circuit is governed by a nonlinear differential equation. Because this equation lacks a closed‐form analytical solution, a novel approximate solution...
Preuzmite dokument 2025 Martin Ćalasan
Institute of Electrical and Electronics Engineers (IEEE)
A Novel Approach for Estimation of Synchronous Machine Automatic Voltage Regulation System Parameters
Preuzmite dokument 2025 Vladan Vujičić , Martin Ćalasan , Mihailo Micev , Milovan Radulović
Institute of Electrical and Electronics Engineers (IEEE)
Novel Triple Diode Solar Cells Equivalent Circuit Models With Lambert W Function Expressions
Preuzmite dokument 2025 Martin Ćalasan , Snežana Vujošević
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Copyright © 2025 EmpowerHR4Inno. All rights reserved.