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2019 Space Series

Explore design resources and products related to space applications.
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.

Detecting magnetic tampering using hall-effect sensors

For anti-tampering, it is common to try to detect the presence of a strong magnet. In this section, we will cover the use of hall sensors for low-power detection of strong magnetic fields in three dimensions.  Details on our magnetic tamper detection reference design, TIDA-00839, will be provided as well as some of the design considerations that were kept in mind when creating this reference design.  

Hardening a meter against magnetic tamper attacks

In this section, we will cover how to harden a meter against these magnetic tamper attacks by using shunts for current sensors. For poly-phase implementations, I will go over how to use isolated delta sigma modulators to add the necessary isolation to use shunt current sensors and create magnetically immune poly-phase energy measurement systems. The TIDA-00601 and TIDA-01094 reference designs, which show how to implement a poly-phase isolated shunt measurement system, will be discussed as well as the associated AMC1304 high-side power supplies used in these designs.

battery management systems on-demand technical training

Battery chargers: pick your application

Select the right charger specific for your application. Check our battery management solutions for various applications. 

battery management systems on-demand technical training

Battery chargers: "How to..." problem solvers

Get answers here for some of your "How to..." questions. 
battery management systems on-demand technical training

Battery gauges: get help for your device

Get design tips for some of our most popular gauges. 
battery management systems on-demand technical training

Battery monitors

We offer a portfolio of stackable and non-stackable monitors for automotive and non-automotive applications. Watch videos to learn more or check out our website

battery management systems on-demand technical training

Battery management tools: crash course

Not sure where to get started? Start with the right tools. These videos will guide you through available tools and their configuration. 

Learn about isolation

Introduction to Isolation

This section of training videos will discuss what isolation is, the three types of isolators, and how they achieve isolation. This course teaches the fundamentals of isolation, including the basics of the technologies used by many different Texas Instruments isolation products. Then, build on the previous lesson by learning the most common isolation parameters, that are important to system designs and selecting the correct isolator product.

Learn about isolation

Isolated Amplifiers and Modulators

This section of training videos will introduce isolated amplifiers and modulators, providing context around what they are, why they're used, where they're commonly used, key specifications and more.
Learn about isolation

Isolated Gate Drivers

This section of training videos will provide an introduction to isolated gate drivers, explain key applications where gate drivers are used, and cover critical specifications, challenges and solutions. 
TI-RSLK

TI-RSLK Module 1 Running code on the LaunchPad using CCS

The purpose of this module is to learn software development methodology and understand how to set up an Integrated Development Environment (IDE), to then import and export Code Composer Studio (CCS) projects, as well as critical debugging information to understand the memory usage and performance of the software on the processor.

TI-RSLK

TI-RSLK Module 2 – Voltage, current, and power

The purpose of this course is to review basic electronic components and the electrical properties needed to interface sensors and actuators to a microcontroller. You will learn how to measure reactance of a capacitor and use your project to measure current and voltage. The electrical properties of the capacitor will help you design circuits that “filter” or remove noise from your robot.

TI-RSLK

TI-RSLK Module 3 – ARM Cortex M

This module serves as a brief introduction to the ARM Cortex-M microcontroller, assembly programming language and some debugging techniques. Understanding how the processor works is essential for the design of embedded systems, such as the one used in your robot.  

TI-RSLK

TI-RSLK Module 4 – Software Design using MSP432

This module is an introduction to C, a general-purpose programming language, in addition to the concepts of compiling and debugging using the MSP432 and TI Code Composer Studio™.  Debugging skills are a valuable tool when developing complex systems involved with robotics.

TI-RSLK

TI-RSLK Module 5 – Battery and voltage regulation

The purpose of this module is to learn how to power your robot. To run the robot (motor and other systems) you will need batteries and a regulator to provide constant voltage.  Understanding the relationship between voltage current and power is an essential component of robot system design.

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