IEEE 2013
IEEE 2012
1.Soft-Switching Boost Converter With a Fly back Snubber for High Power Applications
- Base Paper
- Abstract
2.Four
Quadrants Integrated Transformers for Dual-Input Isolated DC–DC Converters
- Base Paper
- Abstract
3.High-Efficiency
Modular High Step-Up Interleave d Boost Converter for DC-Micro grid
Applications
- Base Paper
- Abstract
4.Non isolated
ZVT Two-Inductor Boost Converter With a Single Resonant Inductor for High
Step-Up Applications
- Base Paper
- Abstract
5.Analysis
and Design of a Zero-Voltage-Switching and Zero-Current-Switching Interleaved
Boost Converter
- Base Paper
- Abstract
6.A
ZVS Interleaved Boost AC/DC Converter Used in Plug-in Electric Vehicles
- Base Paper
- Abstract
7.A
High-Efficiency Single-Phase AC/DC Converter With Enabling Window Control and
Active Input Bridge
- Base Paper
- Abstract
8.A
Comparative Study of a New ZCS DC–DC Full-Bridge Boost Converter With a ZVS
Active-Clamp Converter
- Base Paper
- Abstract
IEEE 2011
1.Analysis,
design and experimental results of a floating-o utput
interleaved-input boost-derived DC – DC high-gain transformer-less
converter
- Base Paper
2.Average current controlled switching regulators with cascade boost converters
- Base Paper
3.Closed-Loop Analysis and Cascade Control of a Nonminimum Phase Boost Converter
- Base Paper
4.Analysis, Design, and Experimentation of an Isolated ZVT Boost Converter With Coupled Inductors
- Base Paper
5.An Efficient High-Step-Up I nterleave d DC–DC Converter With a Common Active Clamp
IEEE 2010
01.Effects of Switching Asymmetry on
an Isolated Full-Bridge Boost Converter
- Base Paper
- Abstract
02.Soft-Switched CCM Boost
Converters With High Voltage Gain for High-Power Applications
- Base Paper
- Abstract
03.Battery
Discharge Regulator for Space Applications based on the Boost Converter
- Base Paper
- Abstract
04.A DC –
DC multilevel boost converter
- Base Paper
- Abstract
05.Three-level zero-voltage switching pulse-width
modulation DC – DC boost converter with active clamping
- Base Paper
- Abstract
IEEE 2009
01.A Practical Switching Loss Model for
Buck Voltage Regulators.
02.Light-Load Efficiency Improvement for
Buck Voltage Regulators.
03.Current Self-Balance Mechanism in
Multiphase Buck Converter.
04.Adaptive Window Control (AWC)
Technique for Hysteresis DC–DC Buck Converters With Improved Light and Heavy
Load Performance.
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05.Control Strategy for Series and Parallel Output
Dual-Buck Half Bridge Inverters Based on DSP Control.
- Base Paper
- Abstract