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- Highly Integrated Dc-Dc Converters
- Efficiency of Buck Converter
- Investigation of a Floating Load Buck Dc-Dc Switching Converter Hong Tan University of Arkansas, Fayetteville
- Switching Regulator Fundamentals (Rev. C)
- SECTION 3 SWITCHING REGULATORS Walt Kester, Brian Erisman
- Fully-Integrated Cmos Switched-Capacitor Buck Converter
- Reliability Evaluation of a Buck Converter Based on Thermal Analysis
- A Buck Converter for DVS Compatible Processors in Mobile Computing Applications Using Fuzzy Logic Implemented in a RISC Based Microcontroller
- Multiphase Buck Design from Start to Finish, Part 1
- DC-To-DC Buck Converter
- How to Select Input Capacitors for a Buck Converter by Manjing Xie System Applications Engineer, Power Design Services
- Industrial DC/DC Buck Converter Bd9x Series : Power Management
- A Fully-Integrated Buck Converter Design and Implementation for On-Chip Power Supplies
- DA9223-A and DA9224-A General Description Key Features Applications
- How to Reconfigure a Buck Converter for Multiple Outputs
- Section 4 Hardware Design Techniques
- ESR Estimation Schemes of Output Capacitor for Buck Converter from Capacitor Perspective
- Comparative Analysis of Switching Characteristics of Non-Isolated Converters Using MOSFET and IGBT
- Transformer Isolated Buck-Boost Converters
- Chapter 4. Switch Realization
- Bootstrap Circuit in the Buck Converter
- RT6204 Wide Vin Buck Converter
- Basic Calculation of a Buck Converter's Power Stage (Rev. B)
- Online Failure Prediction of the Aluminum Electrolytic Capacitor
- Capacitor Calculation for Buck Converter IC
- Flyback Converter, Transformer Design
- Buck Converter Switching Design Using Microcontroller
- ON Semiconductor Is
- SSL21081, SSL21083, and SSL2109 Non-Dimmable Buck Converter in Low Ripple Configurations Rev
- Application Note DA9210-Xxuk2 48-WLCSP PFM Mode Limitations AN-PM-052
- A Family of Buck-Type DC-DC Converters with Autotransformers
- ON Semiconductor Is
- Chapter 7. AC Equivalent Circuit Modeling
- DC-DC Power Converters
- Deterioration Analysis of Aluminum Electrolytic Capacitor for DC-DC Converter
- A Low-Cost, Non-Isolated AC/DC Buck Converter with No Transformer
- High Efficiency 3-Channel Buck Converter with Dual LDO
- Applying Digital Technology to PWM Control-Loop Designs Mark Hagen and Vahid Yousefzadeh
- Multiphase Topologies, This Solution Would Impose Great Increases in Both the Cost and Complexity of the Circuit
- Novel Step-Down DC–DC Converters Based on the Inductor–Diode and Inductor–Capacitor–Diode Structures in a Two-Stage Buck Converter
- ON Semiconductor Is an Equal Opportunity/Affirmative Action Employer
- Practical Design Considerations for the Reduction of Conducted EMI; Part 2
- To 265-V AC, 91% Efficiency, >0.94 PF Buck-PFC Plus
- Design and Implementation of Digital Controllers for Buck
- Buck Converter Design Notes
- Power Systems Laboratory ECE 3354 DC-DC Converters Theory
- Pick the Right Turns Ratio for a Fly-Buck Converter (Rev. A)
- Low Dropout Operation in a Buck Converter
- Buck Converter Selection Criteria
- Buck Converter Overview
- Design Considerations for High Step-Down Ratio Buck Regulators
- Basic Calculation of a Buck Converter's Power Stage
- Introduction to the Series Capacitor Buck Converter
- Sic Schottky Diodes and Polyphase Buck Converters