2019年 11月 18日
现代服务机器人利用各项技术（如 TI 毫米波传感器），可在环境中成功导航并优化路径。小巧高效的电机驱动器可提高机器人的自主性。
2019年 11月 18日
TI 能帮助设计师创造高效的物流机器人，准确穿梭于拥挤的物流中心、校园和零售店，而 TI 的毫米波传感器和 LIDAR 解决方案等高度精确的传感技术功不可没。
These training labs walk you through installation, building and example mmWave sensor projects.
Learn more about the importance of isolation in an industrial system.
Learn more about isolated power supplies in this training series.
Learn more about computer numeric control (CNC) router machines.
Determine solutions for designing a field transmitter ultrasonic AFE.
This training helps to understand the relevant parameters of a 4-20mA analog input module.
This session will address analog outputs in industrial automation systems and their challenges by explaining each configuration and explaining example designs.
Learn how to simplify protection in your designs.
The purpose of this module is to learn software development methodology and understand how to set up the Integrated Development Environment (IDE).
The purpose of this course is to review basic electronic components and electrical properties needed to interface sensors and actuators to a microcontroller.
This module serves as a brief introduction to the ARM Cortex-M microcontroller, assembly programming language and some debugging techniques.
This module is an introduction to the C programming language, and the concepts of compiling and debugging using the MSP432 and Code Composer Studio™.
The purpose of this module is to learn how to power your robot.
In this module, you will interface a line sensor (infrared sensor) to the microcontroller and learn how to write software to initialize GPIO pins.
This module will demonstrate how to use finite state machines as a central controller for the system.
The purpose of this module is to develop interface switches and an LED so the robot can effectively detect wall collisions.
In this module, you will learn the fundamentals of SysTick timers and pulse width modulators (PWM).