IEEE 2013
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IEEE 2012
1. Analysis
of EMI Terminal Modeling of Switched Power Converters
- Base Paper
- Abstract
2. A
Low-Power AC–DC Single-Stage Converter With Reduced DC Bus Voltage Variation
- Base Paper
- Abstract
3. Interleaved
Buck Converter Having Low Switching Losses and Improved Step-Down Conversion
Ratio
- Base Paper
- Abstract
4. A
High-Power Input-Parallel Output-Series Buck and Half-Bridge Converter and
Control Methods
- Base Paper
- Abstract
IEEE 2011
1.Synchronous Buck Converter based PV Energy System for Portable Applications.
- Base Paper
- Abstract
2.Comparative study of Proportional Integral and Back stepping Controller for Buck Converter.
- Base Paper
- Abstract
3.A Novel Control Scheme of Synchronous Buck Converter for ZVS in Light-Load Condition.
- Base Paper
- Abstract
4.Inherent clamp flyback – buck converter with winding cross-coupled inductors
- Base Paper
- Abstract
5.New Approach for MPPT Control of Photovoltaic System With Mutative-Scale Dual-Carrier Chaotic Search.
- Base Paper
- Abstract
6.Dynamic Characteristics of Current-Fed Superbuck Converter.
- Base Paper
- Abstract
7.Single-Inductor Four-Switch Non-Inverting Buck-Boost DC-DC Converter
- Base Paper
- Abstract
IEEE 2010
1.A High-Dynamic Range Current
Source Gate Driver for Switching-Loss Reduction o f High-Side Switch in Buck
Converter
- Base Paper
- Abstract
2.Multimode Digital Controller for
Synchronous Buck Converters Operating Over Wide Ranges of Input Voltages and
Load Currents
- Base Paper
- Abstract
3.Quadratic Differential and
Integration Technique in V2 Control
Buck Converter With Small ESR Capacitor
- Base Paper
- Abstract
4.Exploration of Bifurcation and Chaos in Buck Converter
Supplied From a Rectifier
- Base Paper
- Abstract
IEEE 2009
1.A Practical Switching Loss Model for
Buck Voltage Regulators.
2.Light-Load Efficiency Improvement for
Buck Voltage Regulators.
3.Current Self-Balance Mechanism in
Multiphase Buck Converter.
4.Control Strategy for Series and Parallel Output
Dual-Buck Half Bridge Inverters Based on DSP Control.
5.Adaptive Window Control (AWC) Technique for Hysteresis DC–DC Buck
Converters With Improved Light and Heavy Load Performance.
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