Whitepaper: An Alternative Approach to Higher-Power Boost Converters

Jan. 18, 2011

A higher-power boost converter often requires special consideration to minimize power losses and temperature rise in the FETs, diode, and inductor. Regarding FETs, many designers opt to place FETs in parallel to reduce conduction losses. However, placing FETs in parallel can increase transitional losses. This article discusses a number of approaches that can be considered to reduce total losses in boost FETs. Further, this article will examine ways to approximate total FET losses and then make a selection from the potential approaches that best suits the application requirement. Download this brief registration form to access this can't-miss white paper.

An Alternative Approach to Higher-Power Boost Converters

Whitepaper: An Alternative Approach to Higher-Power Boost Converters

Continue Reading

Solving the contact resistance challenge for 7nm and beyond CMOS

Flash Memory Takes Over

Sponsored Recommendations

The Importance of PCB Design in Consumer Products

PCB Design Mastery for Assembly & Fabrication

What is Design Rule Checking in PCBs?

Unlocking the Power of IoT Integration for Elevated PCB Designs

Comments

To join the conversation, and become an exclusive member of Electronic Design, create an account today!

New

Advances in IoT Security: Enhanced Crypto Standards and High-Power Processing

Top Strategies to Improve Microcontroller Security (Part 2)

Quick Poll: How Are You Using Generative AI and LLMs?

Most Read

New Motor Designs Help EV Makers Kick the Rare-Earth Habit (Part 1)

Smart Ideal Diodes Protect Car Battery Front-Ends

Ideas for Design Volume 3

Sponsored

Five Tips for Designing Scalable Automated Production Test Systems

DC-DC Converter Design Made Easy

Understanding EMI debugging with oscilloscopes