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Sullivan, Charles - Thayer School of Engineering, Dartmouth College
Physically-Based Distributed Models for Multi-Layer
Optimal Choice for Number of Strands in a Litz-Wire Transformer Winding
Modelling Foil Winding Configurations with Low AC and DC Resistance
Using Dielectric Losses to De-Ice Power Transmission Lines with 100 kHz High-Voltage
Soft Magnetic Properties of Obliquely Deposited Co-Zr-O Films
Microfabricated Coupled-Inductors for DC-DC Converters for Microprocessor Power Delivery
Thin-Film Inductor Designs and Materials for High-Current Low-Voltage Power
Evaporatively Deposited Co-MgF2 Granular Materials for Thin-Film Inductors
Stator-Flux-Based Vector Control of Induction Machines in Magnetic Saturation
Optimal Choice for Number of Strands in a Litz-Wire Transformer Winding
Design of Microfabricated Inductors for Microprocessor Power Delivery
Perpendicular anisotropy in granular Co-Zr-O C. R. Sullivan
Easy-To-Use CAD Tools for Litz-Wire Winding Optimization
Converter and Inductor Design for Fast-Response Microprocessor Power Delivery
Optimization of Stranded-Wire Windings and Comparison with Litz Wire on the Basis of Cost and Loss.
Evaluation of Magnetic Materials for Very High Frequency Power Applications
Loss Models for Shaped Foil Windings on Low-Permeability Cores
A High-Field High-Frequency Permeance Meter For Thin-Film Materials
Simulation Model of Common-Mode Chokes for High-Power Applications
30-MHz Power Inductor Using Nano-Granular Magnetic Material
Design and Fabrication of Low-Loss Toroidal Air-Core Inductors
Comparison of Loss in Single-Layer and Multi-Layer Windings with a DC Component
Simplified Design of Common-Mode Chokes for Reduction of Motor Ground Currents in Inverter
Comparison of Single-Layer and Multi-Layer Windings with Physical Constraints or Strong
High-Frequency Resistivity of Soft Magnetic Granular Films
An equivalent complex permeability model for litz-wire windings
Optimization of Stranded-Wire Windings and Comparison with Litz Wire on the Basis of Cost
Physically-Based Distributed Models for Multi-Layer Ceramic Capacitors
Effect of Evaporative Deposition Angle on Anisotropy in Co-MgF2 Nanocomposite Soft
Coupled Inductor Design Optimization for Fast-Response Low-Voltage DC-DC Converters
An Improved Two-Dimensional Numerical Modeling Method for E-Core Transformers
Winding Loss Calculation with Multiple Windings, Arbitrary Waveforms and
Analytical Method for Generalization of Numerically Optimized Inductor Winding Shapes
Cost-Constrained Selection of Strand Wire and Number in a Litz-Wire Transformer Winding
Optimization of Shapes for Round Wire, High Frequency Gapped Inductor Windings
Cost-Constrained Selection of Strand Wire and Number in a Litz-Wire Transformer Winding
Automotive Application of Multi-Phase Coupled-Inductor DC-DC Converter
General Comparison of Power Loss in Single-Layer and Multi-Layer Windings
Improved Distributed Model for Capacitors in High-Performance Packages
Aluminum Windings and Other Strategies for High-Frequency Magnetics Design in an Era of
Three-Dimensional Animations of Power-Electronics Circuits Visualize Voltage and
Simplified High-Accuracy Calculation of Eddy-Current Losses in Round-Wire Windings
Optimization of a Flyback Transformer Winding Considering Two-Dimensional Field Effects, Cost
Stranded Wire With Uninsulated Strands as a Low-Cost Alternative to Litz Wire
Analysis of Minimum Cost in Shape-Optimized Litz-Wire Inductor Windings
Gapped-Inductor Foil Windings with Low AC and DC Resistance
Multi-Layer Barrel-Wound Foil Winding Design C. R. Sullivan
The Hybridization of a Formula Race Car K. W. Benson
Fabrication of Thin-Film V-Groove Inductors Using Composite Magnetic Materials
The Quasi-Distributed Gap Technique for Planar Inductors-Design Guidelines
AC Resistance of Planar Power Inductors and the Quasidistributed Gap Technique
Computationally Efficient Winding Loss Calculation with Multiple Windings, Arbitrary
Comparison of Magnetic Materials for V-Groove Inductors and MOSFETs in Optimised
Accurate Prediction of Ferrite Core Loss with Nonsinusoidal Waveforms Using Only Steinmetz
Capacitors with Fast Switching Require Distributed Models
Shapeopt Instructions 1 http://power.thayer.dartmouth.edu
An Improved Calculation of Proximity-Effect Loss in High-Frequency Windings of Round
Multi-Layer Folded High-Frequency Toroidal Inductor Windings
A Soft-Switched Square-Wave Half-Bridge DC-DC Converter
Design of Microfabricated Inductors C. R. Sullivan
Optimized Magnetic Components Improve Efficiency of Compact Fluorescent Lamps
Improved Calculation of Core Loss With Nonsinusoidal Waveforms
Control of Ultracapacitor-Battery Hybrid Power Source for Vehicular Applications
Impedance-Analyzer Measurement of High-Frequency Power Passives: Techniques for
Aluminum Windings and Other Strategies for High-Frequency Magnetics Design in an Era of
Breaking the ice: de-icing power transmission lines with high-frequency, high-voltage excitation
A Two-Dimensional Equivalent Complex Permeability Model for Round-Wire Windings
Fabrication of Thin Film V-Groove Inductors using Composite Magnetic Materials
Microfabricated V-Groove Power Inductors for High-Current Low-Voltage Fast-Transient
Measured electrical performance of V-groove inductors for microprocessor power delivery
Optimal Core Dimensional Ratios for Minimizing Winding Loss in High-Frequency
