Designing a DC/DC power supply for embedded
systems involves many tradeoffs that impact performance, stability and
reliability. This webinar will review several common design challenges such as
maximizing thermal performance with limited to no airflow, complying with EMI
standards and ensuring overall system scalability when powering digital
processors. Learn how Texas Instrument’s SIMPLE SWITCHER ® products can help you
overcome these design challenges quickly and easily, providing a complete ease
of use experience.

Discounted Tools Offer:
For a limited time, Avnet
Electronics Marketing and TI are offering 50% off the listed AvnetExpress.com
resale of an array of TI SIMPLE SWITCHER® development tools. Offer valid while
supplies last. The discount code will be provided at the end of the web

Who should attend?
Anyone designing a DC/DC
power supply for an embedded system targeting the automotive, communication,
industrial or medical markets.

Key takeaways:

  • A basic understanding of power supply design tradeoffs that impact
    performance, stability and reliability
  • An understanding of how to maximize thermal performance and comply with EMI
    standards to create a scalable solution for powering digital processors
  • Knowledge of available development tools and design resources

Kilroy, Product Marketing Engineer, Texas Instruments

Colleen Megan
Kilroy is a product marketing engineer for TI’s SIMPLE SWITCHER® Power
Management group. Colleen is responsible for promoting product introductions and
brand awareness, focusing on the industrial market and distribution channel and
sales training. Colleen received her BSEE from Santa Clara University, Santa
Clara, California. Colleen enjoys traveling, playing sports, cooking and
watching funny movies.

Cooper, Technology Marketing Director, Avnet Electronics

Chris Cooper is the Technology Director for Power at Avnet
Electronics Marketing. Chris has extensive and in-depth knowledge of power
products and design tools available from Texas Instruments. His technical
expertise also extends to circuit board design with an emphasis on power design
as a result of time spent working in the biomedical and telecommunications
markets. Chris received a Bachelor of Engineering degree in electrical
engineering from Memorial University of Newfoundland, Canada.