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Solutions Size Comparison

This section will compare the size of the solution for the 3 different designs.

Cost Compsarison

This section will compare the bill of material cost for each solution used.

Summary

Summary of the testing results

Low EMI and Noise performance with DC/DC switching regulators

Concepts of Switching Regulator EMI and Noise Mitigation

Before we dive into specific application-based examples of noise and EMI mitigation, let's start with the basics. What is noise? What is EMI? What is ripple? How are they measured? What are some common approaches to limiting their effects? This section discusses these topics with a more conceptual approach to serve as a primer for the rest of the series. 

Resources:

Low EMI and Noise performance with DC/DC switching regulators

EMI and Noise Mitigation Techniques in Practice

Now that we understand the sources of EMI and noise in switching regulators, and some of the common approaches to mitigating each, let's take a closer look at real-world examples of reducing their effects. In this section we will examine the impacts of various mitigation techniques to help you decide which approach makes the most sense in your design. Techniques covered in this discussion include external component placement, filter options and design, frequency manipulation via spread spectrum or dithering, snubbers, boot resistors, and more.

Resources:

Low EMI and Noise performance with DC/DC switching regulators

Achieving low noise and high efficiency for noise-sensitive analog loads

Noise and EMI can be detrimental to sensitive analog signal chain circuitry. For this reason, many engineers automatically default to linear regulators. But, in doing so, they are essentially trading one problem (noise) for another (heat dissipation). In this section we will discuss what types of signal chain loads can be driven directly by a switching regulator to get low noise and EMI without sacrificing efficiency. We will also discuss when a linear regulator is absolutely needed to reach levels of noise not possible with a switcher.

Resources:

Low EMI and Noise performance with DC/DC switching regulators

Low EMI and low noise DC/DC conversion in Automotive applications

Because of the potential havoc that interference can wreak in radio and safety critical systems, automotive electronics are subject to the most stringent EMI standards- the most common being CISPR25 Class-5. The materials below provide a discussion around the sources of EMI in an automotive environment and a comprehensive blueprint to understanding how to minimize it's effects.

Resources:

High Volt Interactive 2019 training topics

The following topics were presented at High Volt Interactive 2019.

High Volt Interactive 2018 training topics

The following topics were presented at High Volt Interactive 2018.

High Volt Interactive 2017 training topics

The following topics were presented at High Volt Interactive 2017.

Mastering the art of high voltage gate drivers

In this training series, we will touch the gate driver applications, fundamentals of low side gate driver, high- and low side gate driver and isolated gate driver. And we will surely go deep and help you understand the gate driver design considerations with TI reference design and the corresponding critical waveforms.

buck-boost in wireless security cameras and video doorbells

Buck-boost and boost converters in wireless security cameras and video doorbells

In this series, we will show you how to improve wireless security cameras, video doorbells and similar devices with buck-boost and boost converters.
buck-boost in wireless security cameras and video doorbells

Part 1: Introduction

In this video, you will learn how to build an entire power tree, significantly increase the battery operating time, and stabilize the supply voltage rails during sudden load changes such as turning on the camera or WiFi. You will also learn how you can use buck-boost converters to directly and efficiently drive high power white and IR LEDs for evening and night vision.
buck-boost in wireless security cameras and video doorbells

Part 2: Top buck-boost converter use cases

In this section, you will learn about the top buck-boost converter use cases and the reasons why buck-boost converters can help to build a more efficient, reliable, and simple system. 
buck-boost in wireless security cameras and video doorbells

Part 3: Li-ion battery discharge curves and estimate battery operating time gains with buck-boost

In this section, you will become familiar with lithium ion battery discharge curves and learn in which use cases a buck-boost converter will significantly increase battery operating time.
Low EMI and Noise performance with DC/DC switching regulators

Achieving low noise and low EMI performance with DC/DC switching regulators

Mitigating switching regulator EMI and noise is seen by engineers as a black art. Mess with the feng shui of the PCB layout too much, and the system may not pass CISPR standards. Because of this, many power designers simply turn to linear regulators as a guaranteed way to avoid the headache of reducing emissions.

Fixed Frequency vs Constant On-Time Control of DC/DC Converters

This video series takes an in-depth look at voltage mode and current mode control in comparison to DCAP2 and DCAP3 control modes for step-down DC/DC converters.

Rapid prototyping training series

Rapid prototyping: Getting started with TI solutions

How many times have you said, “I would like to prototype an idea with TI silicon but I can not get software resources" or “I don’t know how to prototype/program.”

This training shows you how to get started prototyping on TI solutions with minimal or no programming, including the following tasks:

Power Topology Selection

An overview of the decision process and the design considerations for each power topology

Designing with TI's Series Capacitor Buck Converter

Learn the features and benefits of TI's new DC/DC power topology, the series capacitor buck converter, and get started using it in your space-constrained design. 

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