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Managing thermals with a 2-layer board - deep dive
날짜:
기간::
2019년 9월 20일
기간::
08:49
Learn how to optimize buck converter thermal performance using a two-layer board
Capacitor selection
This sections covers tips for selecting the appropriate capacitors for your switching power supply.
Inductor selection
This section covers tips for selecting the appropriate inductors for your switching power supply.
FPGA power made simple
Learn how to use WEBENCH® Power Designer and FPGA power requirements.
ASIC, FPGA and DDR rail power design through PMBus power supplies
Learn how the PMBus communication interface powers ASIC, FPGA and DDR Rail power designs.
Introduction to isolation power supplies
Learn more about isolation power supplies.
Automotive transients introduction
This video presents a short overview of the automotive front-end.
Automotive transients explained
This section presents a high-level overview of the automotive board net and describes the conditions that the tests simulate.
Architecting the DC/DC stage for automotive transients
This section presents an approach to architecting the DC/DC conversion stage to handle the transients on the automotive battery rail.
Reverse battery protection
Learn more about the methods of protecting the electronic loads connected to the automotive battery rail in the event of accidental reverse battery connection.
Riding out automotive transients using buck-boost DC/DC stage
This section presents the buck-boost DC/DC converter as an effective and efficient solution for the wide VIN automotive battery rail.
Introduction and agenda
This section will cover the introduction and agenda for this 21-part training series.
Market challenges
This section will cover the market challenges to consider when choosing your DC/DC solution.
Control mode comparison
This section will cover compare the three different control modes.
Product comparison
This section will compare the three different products used.
Topology comparison
This section will compare the two different topologies chosen for this comparison.
Design parameters
This section will review the design parameters used.
Switching frequency considerations
This section will cover issues to consider when choosing your switching frequency.
Inductor selection
This section will cover what needs to be considered when choosing your output inductor.
Output capacitor selection
This section will cover thing to consider when choosing your output capacitor.