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143 Results

TI-RSLK MAX Module 8 - Lecture video part I - Interfacing input and output - LEDs

Date:
July 19, 2019

Duration:
18:57
In this module you will learn the fundamentals of LEDs and switches.

TI-RSLK MAX Module 10 - Lecture video part I - Debugging real-time systems - Theory

Date:
July 19, 2019

Duration:
20:24
The purpose of this video is to understand debugging and testing your robot to understand what it is doing.

TI-RSLK MAX Module 9 - Lecture video part II - SysTick Timer - PWM

Date:
July 19, 2019

Duration:
11:35
You will learn the concept of Pulse Width Modulation (PWM) and duty cycle.

TI-RSLK MAX Module 8 - Lecture video part II - LEDs and Switches

Date:
July 19, 2019

Duration:
11:26
Interfacing input and output devices using LEDs and Switches

TI-RSLK MAX Module 7 - Lecture video part II - Finite state machine - Line tracker

Date:
July 19, 2019

Duration:
25:37
In this module, you will learn how to use finite state machines as a central controller for a robotics system.

TI-RSLK MAX Module 7 - Lecture video part I - Finite state machines

Date:
July 19, 2019

Duration:
20:42
In this module you will use a finite state machine to create a controller for a simple line following robot.

TI-RSLK MAX Module 6 - Lecture video part II - GPIO - Programming

Date:
July 19, 2019

Duration:
23:30
In this module you will design, develop and test the line sensor measurement required for the maze robot.

TI-RSLK MAX Module 6 - Lecture video - GPIO - MSP432™

Date:
July 18, 2019

Duration:
22:13
In this module you will design, develop and test the line sensor measurement required for the TI-RSLK MAX robot.

TI-RSLK MAX Module 5 - Lecture video part I - Battery and voltage regulation

Date:
July 18, 2019

Duration:
20:55
Learn battery power sources, voltage regulation (constant voltage) and performance measurements.

TI-RSLK MAX Module 5 - Lecture video part II - TI-RSLK Chassis board

Date:
July 18, 2019

Duration:
09:26
In this video, you will learn an overview of the TI-RSLK MAX Chassis board, its features, and connections between the launchpad

TI-RSLK MAX Module 4 - Lecture video part II - Design

Date:
July 18, 2019

Duration:
19:50
Learn software design through a call graph, data flow graph, successive refinement, abstraction (functions) and modular design (header/code files).

TI-RSLK MAX Module 4 - lecture video part III - Debugging

Date:
July 18, 2019

Duration:
17:27
Learn debugging on the MSP432 through controls (step, breakpoints), observing variables and functional debugging.

TI-RSLK MAX Module 3 lecture video part II: ARM Cortex M Assembly

Date:
July 18, 2019

Duration:
23:01
In this module you will develop and test an assembly function the maze robot might use to perform a numerical calculation.

TI-RSLK MAX Module 4 - Lecture video part I - C programming

Date:
July 18, 2019

Duration:
26:31
In this module, you will develop and test software functions that will be used in the maze robot.

TI-RSLK MAX Module 3 - Lecture video - ARM Cortex M Architecture Part I

Date:
July 18, 2019

Duration:
20:10
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 3 - Lecture video - ARM Cortex M Architecture Digital Logic

Date:
July 18, 2019

Duration:
11:57
Introduction into digital logical by learning the fundamentals, digital versus analog, and processor

TI-RSLK MAX Module 2 - Lecture video 2b - Circuits

Date:
July 18, 2019

Duration:
10:19
Introduction into circuits and the overall electrical systems

TI-RSLK MAX Module 2 - Lecture video - Voltage, current and power

Date:
July 18, 2019

Duration:
26:17
Covering resistors, capacitors and LEDs.

TI Robotics System Learning Kit MAX (TI-RSLK MAX)

The TI-RSLK MAX is a low-cost robotics kit and classroom curriculum which provides students with a deeper understanding of how electronic system designs work.  Developed with university faculty, Jon Valvano of UT Austin, the TI-RSLK MAX is designed to supplement university curriculum.

Troubleshooting Power supply rejection ratio amplifier amplifiers VOS input offset integrated circuit PCB printed circuit board application linear AMP offset output voltage datasheet verification failure analysis debugging debug FA customer return

Troubleshooting Tips: Op Amps - Power Supply Rejection Ratio

Date:
May 30, 2019

Duration:
04:30
In this training we demonstrate how to verify the power supply rejection ratio of an amplifier using the TI product datasheet test conditions.
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