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SimpleLink Academy - Bluetooth low energy

TI-RTOS

The SimpleLink SDK comes integrated with TI-RTOS. Checkout the trainings below to learn about multi-threaded applications & the features available with TI-RTOS.

SimpleLink Academy - Bluetooth low energy

POSIX

The SimpleLink™ SDK features POSIX (Portable Operating System Interface), which is a family of standards specified by the IEEE Computer Society for maintaining compatibility between operating systems. Through POSIX-compliant APIs, developers can maintain 100% application code portability between various OS/kernels.

SimpleLink Academy for Wi-Fi

Wi-Fi

Follow the trainings below to learn how to add Wi-Fi to your next CC32x0-based project.

SimpleLink Academy for Wi-Fi

TI Drivers

The SimpleLink SDK includes TI Drivers, a robust set of intuitive, functional APIs that offer portable, feature-rich access to peripherals.  The TI Drivers API exposes the functionality of the hardware-specific drivers in the same way across all TI SimpleLink devices, giving developers portable, feature-rich access to a variety of peripherals. TI drivers are open source [Berkeley Software Distribution license (BSD)] and built on a hardware abstraction layer, offering full access to the device’s complete capability.

SimpleLink Academy for Wi-Fi

POSIX

The SimpleLink™ SDK features POSIX (Portable Operating System Interface), which is a family of standards specified by the IEEE Computer Society for maintaining compatibility between operating systems. Through POSIX-compliant APIs, developers can maintain 100% application code portability between various OS/kernels.

SimpleLink Academy for Wi-Fi

TI-RTOS

The SimpleLink SDK comes integrated with TI-RTOS. Checkout the trainings below to learn about multi-threaded applications & the features available with TI-RTOS.

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. 

Motor Drives in Appliances: Why Transforming from High Voltage to Low Voltage?

Learn the opportunities of motor drives in appliances and understand why there is clear transformation happening from high voltage to low voltage motor drives

Brushed DC and Stepper Motor Drives: Architectures, Challenges and Solutions

Learn the different power stage architectures and topologies for low voltage brushed DC and stepper motor drives and understand typical system design challenges and differentiated solutions from Texas Instruments.

Brushless DC Motor Drives: Architectures, Challenges and Solutions

Learn the different power stage architectures and topologies for low voltage brushless DC motor drives and understand typical design challenges and differentiated solutions with integrated motor drivers.

How to Design a Robust, Reliable and Efficient Power Stage for Brushless DC Motor?

Learn about the design challenges for the power stage in a low voltage BLDC motor drive and understand the system solutions enabling high efficient, robust and reliable system.  Also learn about different power supply solutions for low voltage motor control.

Automotive front end power stage

Automotive transients introduction

This video presents a short overview of automotive frond-end and the transients tackled by the frond-end power conversion stage connected to an automotive battery rail.

Automotive front end power stage

Automotive transients explained

This section presents a high level overview of automotive board net and the describes the conditions that the the tests simulate. These include:

  • Reverse polarity
  • Jump start
  • Load sump
  • Starting profile
  • Superimposed ac
Automotive front end power stage

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 automotive battery rail. Following topologies are covered:

  • Buck-boost
  • Always-on boost + buck
  • On-demand boost + buck
  • Buck + post boost

Pro/cons of the different approaches are also discussed.

Automotive front end power stage

Reverse battery protection

This section presents the different methods of protecting the electronic loads connected to the automotive battery rail in the event of accidental reverse battery connection. The methods covered include:

  • Schottky diode
  • PFET + discretes
  • Smart diode + NFET
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