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581 Results

TPS23880 working with noncompliant high power PDs (UPoE, PoE++ and PoH)

Date:
May 8, 2018

Duration:
14:50
Learn how TI’s .bt standard-ready PSE, the TPS23880, operates with non-standard high power PD devices like UPoE, PoE++ and PoH

TPS23861 PoE MSP430 Reference Code Training: Part 2

Date:
December 23, 2016

Duration:
05:37
In this video, you will learn more about the features implemented and high-level architecture of the TPS23861 PSE controller MSP430 reference code.

TPS23861 PoE MSP430 Reference Code Training: Part 1

Date:
December 23, 2016

Duration:
03:10
In this video, you will learn more about the TPS23861 PSE controller, and when to use/how to get started with the power port management software.

TPS2372/3 working with noncompliant high power PSEs (UPoE, PoE++ and PoH)

Date:
May 8, 2018

Duration:
12:30
Learn how TI’s .bt standard-ready PD, the TPS22372/3, operates with non-compliant high power PSE devices like UPoE, PoE++ and PoH
From Zero to Hero: Time-of-Flight Training (ToF) Series

Tools training

Learn about the tools and resources TI provides to help you prototype easier and faster.

TI’s AT Migration to BT (TPS2388 to TPS23880)

Date:
May 8, 2018

Duration:
08:41
TI has a new 802.3 bt standard-ready PSE that you can start evaluating with. Watch this video to learn how to migrate from the TPS2388 to the TPS23880 solution.

Tips and Tricks for Industrial Power Supplies - Battery Charging

Date:
May 3, 2017

Duration:
04:18
This topic will cover an example of a power supply design for industrial battery charging.
usb type-c reference design

TIKit Reference Design: Quickly Convert Barrel Jack to USB Type-C

Date:
August 3, 2018

Duration:
01:42
Converting from Barrel Jack to Type-C doesn't have to be difficult. This video quickly demos how to convert using the TIKit reference design.

TIKit Reference Design: How to convert USB-A to USB-C

Date:
July 20, 2018

Duration:
01:32
This short video demos how you can utilize the TIkit reference design to quickly and easily convert your USB-A source port to USB-C

TIDA-01330 Automotive Power Seat Reference Design

Date:
February 17, 2017

Duration:
01:04
Explore the components of TIDA-01330 and visualize how the automotive design's influence to power seat designs

TIDA-010037 hardware design

This section provides an overview of the hardware used in the TIDA-010037 design, which includes information on the eFuse circuit used to create a current limited rail for connection to an external communication module.  In addition, this section discusses the circuits used to translate the Mains voltage and current to the voltage waveform sensed by the ADS131M04.

TIDA-010036 hardware design

This section provides an overview of the hardware used in the TIDA-010036 design, which includes the circuits used to translate the Mains voltage and current to the voltage waveform sensed by the ADS131M04.  In addition, it covers the TPS7A78-based cap-drop power supply used in this design.

TI-RSLK MAX Module 9 – SysTick timer

In this module, you will learn the fundamentals of SysTick timers and pulse width modulators (PWM), including how to measure pulse times and period with a logic analyzer and amplitude with an oscilloscope. It is important to understand the concept of PWM as we will use it to adjust power to the motors.

TI-RSLK MAX Module 8 – Interfacing input and output

The purpose of this module is to develop interface switches and an LED so the robot can effectively detect wall collisions. Many sensors and actuators deploy LEDs, so understanding how they operate will be important to building your robot.

TI-RSLK MAX Module 7 – Finite state machines

This module will demonstrate how to use finite state machines as a central controller for the system. Finite state machines are an effective design process to have in your embedded system tool box and can be used to solve problems with inputs and outputs.The basic approach to system development is to create components and

TI-RSLK MAX Module 6 – GPIO

In this module, you will interface a line sensor (infra-red sensor) to the microcontroller and learn how to write software to initialize GPIO pins.  The line sensor is a simple and accurate sensor for solving robotic challenges.

TI-RSLK MAX Module 5 – Building the robot

In this module, you will create the robot. You will then be able to measure the voltage, current and energy for a battery while managing voltage regulation. This will allow you to build the circuits needed to power the robot.

TI-RSLK MAX 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 MAX 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 MAX Module 20 – Wi-Fi

In this module, you will learn how to develop a set of Wi-Fi communication functions and learn how to interact with web services. By using the CC3100 to communicate with the MSP432, you will interface a Wi-Fi radio module to the microcontroller.

581 Results
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