"The Power Management Lab Kit series is comprised of five boards, each offering unique experiments and accompanied by an experiment lab book covering four key power topologies and case studies demonstrating different aspects of power supply design tradeoffs. The boards cover a variety of possible tests and measurements which can be performed in teaching labs. The boards are designed to investigate the influence of physical parameters and operation conditions of a power supply on its own performance."
This series includes 6 videos on the basics of electrostatic discharge (ESD). Each video is less than five minutes, and covers the concepts you need to know before selecting the right ESD protection – like working voltages, capacitance, and how to assess ESD ratings in datasheets.
Power Stage DesignerTM is a JAVA based tool that helps engineers accelerate their power-supply designs by calculating voltages and currents of 20 topologies according to the user’s inputs. Additionally, Power Stage Designer contains a Bode plotting tool and a toolbox with various functions to make power supply design easier. Because all calculations are executed in real time, this is the quickest tool to start a new power supply design.
The main purpose of this application report is to demonstrate a systematic approach to design high performance gate drive circuits for high speed switching applications. It is an informative collection of topics offering a “one-stop-shopping” to solve the most common design challenges. Therefore, it should be of interest to power electronics engineers at all levels of experience.
This document provides a comprehensive overview of voltage reference basics and application design. Learn about the basics with topics covering voltage reference essentials, voltage reference performance and design guidelines with data converters, and the functional flexibility of voltage references to serve as low-drift DC voltage or current sources.
Download this Power Topologies Quick Reference Guide to learn and refer back to 17 of the most common, power supply topologies with the most important waveforms and equations.
We are all well aware that the demand for Electric Vehicles (EV) is increasing rapidly. This eight-part training session will teach you about typical EV power systerms, how the different types of batteries are charged, understand how EV’s are designed, learn an on-board charger design at a high level and how gate drivers can improve your power system.
If you're trying to distribute power across your voltage rails or protect your power path, chances are you are going to encounter a critical design tradeoff. This free e-book explains practical tips and some of the lesser known hurdles that you may encounter while optimizing your power path. While this content is comprehensive, you can learn at your own pace by exploring one of the 11 chapters on critical protection concepts.
We depend on the reliable and safe operation of countless electronics all around us – in our homes, cars, workplaces, and factories. To ensure that these systems operate correctly in the diverse and sometimes harsh environments found in industrial and automotive applications, system designers must incorporate accurate and redundant monitoring of the critical power supplies that power the systems’ processing and signalchain blocks. This e-book provides an in-depth overview of voltage supervisors and their applications.
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