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TI-RSLK MAX Module 21 - Lecture video - Sensor integration - Performance measurements
Date:
Duration:
September 28, 2020
Duration:
27:16
This section provides performance measurements for sensor integration.
TI-RSLK MAX Module 5 - Lecture video part II - TI-RSLK Chassis board
Date:
Duration:
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 LaunchPad Preparation
Date:
Duration:
July 22, 2019
Duration:
01:57
This video highlights the changes that must be made to the SimpleLink™ MSP432P401R high-precision ADC LaunchPad™ development kit as part of the TI-RSLK MAX.
TI-RSLK MAX Module 21 - Lecture Video - Sensor integration - Environmental sensors
Date:
Duration:
September 29, 2020
Duration:
15:04
This section covers environmental sensors for sensor integration.
TI-RSLK MAX Module 21 - Lecture video - Sensor integration - BMI160/BMM150 inertial measurement unit
Date:
Duration:
September 29, 2020
Duration:
18:14
This section covers BMI160/BMM150 Inertial Measurement Unit for sensor integration.
TI-RSLK MAX Module 5 - Lecture video part I - Battery and voltage regulation
Date:
Duration:
July 18, 2019
Duration:
20:55
Learn battery power sources, voltage regulation (constant voltage) and performance measurements.
TI-RSLK MAX Module 5 - Lab video 3 - Construction video
Date:
Duration:
July 22, 2019
Duration:
07:30
The purpose of this video is to demonstrate the assembly of the TI-RSLK MAX.
TI-RSLK MAX Assembly Guide
Date:
Duration:
July 22, 2019
Duration:
07:27
This video provides step-by-step directions on how to assemble the TI-RSLK MAX.
TI-RSLK MAX Module 3 lecture video part II: ARM Cortex M Assembly
Date:
Duration:
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 21 - Lecture video - Sensor integration - Fast Fourier transform
Date:
Duration:
September 29, 2020
Duration:
23:39
This section covers Fast Fourier Transform for sensor integration.
TI-RSLK MAX Module 12 - Lecture video part II - DC motors - Interface
Date:
Duration:
July 19, 2019
Duration:
19:42
The focus of this module is the mechanical and electrical aspects of the motors.
TI-RSLK MAX Module 3 - Lecture video - ARM Cortex M Architecture Part I
Date:
Duration:
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 13 - Lecture video part II - Timers - Pulse width modulation
Date:
Duration:
July 19, 2019
Duration:
18:33
In this module you will learn how to interface the DC motors using hardware PWM.
TI-RSLK MAX Module 5 - Lab video 1 - Voltage and current from battery
Date:
Duration:
July 22, 2019
Duration:
02:19
The purpose of this lab is to study the batteries and how they are used to power the robot.
TI-RSLK MAX Module 5 - Lab video 4 - Testing the TI-RSLK MAX
Date:
Duration:
July 22, 2019
Duration:
03:01
The purpose of this lab is to test the system and the batteries.
TI-RSLK MAX Module 21 - Lecture video - Sensor integration - Theory
Date:
Duration:
October 9, 2020
Duration:
18:42
This module will cover integrated sensors, sensor interfacing and digital signal processing.
TI-RSLK MAX Module 15 - Lecture video part III- Sound generation
Date:
Duration:
July 19, 2019
Duration:
17:12
In this module you will learn how to interface sound generation
TI-RSLK MAX Module 2 - Lecture video - Voltage, current and power
Date:
Duration:
July 18, 2019
Duration:
26:17
Covering resistors, capacitors and LEDs.
TI-RSLK MAX Module 12 - Lecture video part I - DC motors - Physics
Date:
Duration:
July 19, 2019
Duration:
14:43
In this module you will receive an overview of the circuits needed to drive power to the DC motors.
TI-RSLK MAX Module 15 - Lecture video part I - Data acquisition systems - Theory
Date:
Duration:
July 19, 2019
Duration:
20:40
In this module you will learn how to create a real-time data acquisition system that measures distance from three IR sensors.