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Jacinto 7 processors for automotive applications

Jacinto 7 processors for automotive applications

This training series introduces the Jacinto™ 7 processors for automotive applications, including the device architecture, features and benefits of key subsystems, software architecture, and how to get started on your application development.

Type-C PD 於工業電腦與電子銷售系統的應用

課程說明 USB 的演進,並說明了 Type C 的通訊協定、電源傳輸協定,最後介紹了不同使用情境下 TI 的相關應用晶片。

LaunchPad SensorTag kit training series

Expanding upon TI's LaunchPad ecosystem, the LaunchPad SensorTag kit (LPSTK-CC1352R) offers integrated environmental and motion sensors, multi-band wireless connectivity and easy-to-use software to help you prototype your next connected application. This fully-enclosed and battery-operated kit is well-suited to quickly evaluate a complete sensor network and stress test the various protocol stacks available in the SimpleLink™ Platform.

Rapid prototyping fundamentals training series

Rapid prototyping fundamental functions

These videos provide understanding of the fundamental functions used for rapid prototyping on TI solutions with minimal or no programming, including the following:

  • Implementing necessary prototyping functions such clocks/GPIO, Read A/D, I2C/SMBus, etc.
  • Seamless interface of various analog EVMs for customer “proof of concept”
  • Standalone UI – Button, (GP Input - GPIO), LCD Display (“Hello”), Music, Serial Interface (Putty, Echo)

Processor SDK for KeyStone Processors

TI provides key runtime software components and documentation to further ease development. TI’s online training provides an introduction to the Processor SDK and how to use this software to start building applications on TI processors.

PRU for 66AK2Gx Processors

The Programmable Real-Time Unit (PRU) is a small processor that is tightly integrated with an IO subsystem, offering low-latency control of IO pins on TI’s SoC devices including the 66AK2Gx, AM335x, AM437x, and AM57x Processors. The PRU is customer-programmable and can be used to implement simple and flexible control functions, peripherals, and state machines that directly access IO pins of the device, as well as can communicate with the application cores.

High Frequency Challenges

Learn about how to overcome high frequency challenges using TI's series capacitor buck converter.

Introduction, value proposition and benefits

Series introduction to Mobile Smart TV and the market

Design considerations

Mobile Smart TV design considerations

Benefits of DLP Pico technology for Mobile Smart TV

Benefits of DLP in the Mobile Smart TV  application space

Introduction

This section covers wireless network trends, key technologies, and problem statements for smart grid IoT. 

6LoWPAN-based Wireless Network Protocols

This section covers system-level deep dive on key wireless network protocols of 6LoWPAN, RPL, and CoAP for smart grid IoT. 

System-Level Examples for Wireless Networks on Smart Grid IoT

This section covers system-level examples for wireless networks on smart grid IoT. We will provide software- and system-level details for two system examples: 6LoWPAN-Contiki and sub-1GHz sensor to cloud industrial IoT gateway reference design. 

Summary

This section summarizes the wireless network challenges and solutions for a smarter grid IoT training series. 

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.

TI-RSLK MAX 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 MAX 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.

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