SLVAEH8A May 2020 – June 2021 TPS63000 , TPS63010 , TPS63020 , TPS63024 , TPS630250 , TPS63027 , TPS63030 , TPS63036 , TPS63050 , TPS63060 , TPS63070 , TPS63802 , TPS63805 , TPS63806 , TPS63810 , TPS63811
Fundamentals of Switching Converters | |
Switching Regulator Fundamentals | SNVA559 |
Under the Hood of a Noninverting Buck-Boost Converter | SLUP346 |
Understanding Inverting Buck-Boost Power Stages in Switch Mode Power Supplies | SLVA059 |
Basic Calculations of a 4-Switch Buck-Boost Power Stage | SLVA535 |
Basic Calculation of an Inverting Buck-Boost Power Stage | SLVA721 |
Design Support | |
Understanding the Absolute Maximum Ratings of the SW Node | SLVA494 |
IQ: What It Is, What It Isn’t, and How to Use It | SLYT412 |
Understanding Undervoltage Lockout in Power Devices | SLVA769 |
Extending the Soft Start Time Without a Soft Start Pin | SLVA307 |
Achieving a Clean Startup by Using a DC/DC Converter With a Precise Enable-Pin Threshold | SLYT730 |
Methods of Output-Voltage Adjustment for DC/DC Converters | SLYT777 |
Design Considerations for a Resistive Feedback Divider in a DC/DC Converter | SLYT469 |
Prevent Battery Overdischarge With Precise Threshold Enable Pin | SLVAE79 |
Precise Start-Up Delay Using Enable Pin with Precise Voltage Threshold | SLVAEA3 |
Choosing an Appropriate Pull-Up and Pull-Down Resistor for Open Drain Outputs | SLVA485 |
Optimizing Transient Response of Internally Compensated DC-DC Converters With Feedforward Capacitor | SLVA289 |
Improving Load Transient Response of DC/DC Converters Powering Controlled Loads | SLVAEE0 |
Extending Battery Life With Low Quiescent Current and Dynamic Voltage Scaling | SLVAER8 |
PCB Layout and Thermal Considerations | |
QFN Layout Guidelines | SLOA122 |
PowerPAD™ Layout Guidelines | SLOA120 |
DSBGA Wafer Level Chip Scale Package | SNVA009 |
Five Steps to a Great PCB Layout for a Step-Down Converter | SLYT614 |
Five Steps to a Good PCB Layout of a Boost Converter | SLVA773 |
Semiconductor and IC Package Thermal Metrics | SPRA953 |
EMI Considerations | |
EMI/RFI Board Design | SNLA016 |
Layout Tips for EMI Reduction in DC/DC Converters | SNVA638 |
Simple Success with Conducted EMI from DC/DC Converters | SNVA489 |
Minimizing Ringing at the Switch Node of a Boost Converter | SLVA255 |
Layer Design for Reducing Radiated EMI of DC to DC Buck-Boost Converters | SLVAEP5 |
Device Specific Technical Discussions | |
High Efficiency Battery Powered High Brightness LED Driver Using the TPS63000 | SLVA268 |
Supercapacitor Backup Power Supply With TPS63802 | SLVAE52 |
Dynamically Adjustable Output Using TPS63000 | SLVA251 |
How to Use VSEL Function of TPS63070 | SLVAE62 |
Using Input Current Limiting to Extend Battery Life | SLVAES7 |
TPS63802HDKEVM - Hardware Development Kit | SLVUBU0 |
Measurement Techniques | |
Accurately Measuring Efficiency of Ultralow-IQ Devices | SLYT558 |
Performing Accurate PFM Mode Efficiency Measurements | SLVA236 |
How to Measure the Loop Transfer Function of Power Supplies | SNVA364 |
Simplifying Stability Checks | SLVA381 |
Techniques for Accurate PSRR Measurements | SLYT547 |
Buck-Boost Converter Applications | |
Different Methods to Drive LEDs Using TPS63xxx Buck-Boost Converters | SLVA419 |
Low-Power TEC Driver | SLVA677 |
Buck-Boost Converters Solving Power Challenges in Optical Modules | SLVAEB2 |
Improve Efficiency in TWS and Hearing Aid Earbuds With a Buck-Boost Converter | SLVAED7 |
High-Efficiency Backup Power Supply | SLVA676 |
Smart Electricity Meter Supercapacitor Backup Power Supply With Current Limit | SLVAEI4 |
Using Non-Inverting Buck-Boost Converter for Voltage Stabilization | SLVAEA2 |