Learn about TI 3D depth sensing technology and implementation for industrial, automotive and consumer applications including gesture control, 3D scanning, robotic navigation, augmented reality and people counting. For additional information about 3D time-of-flight technology and design resources, please visit ti.com/3dtof.
TI's PGA460-Q1 is the industry’s most flexible ultrasonic sensor. It supports wide distance detection range at low power, enabling automotive park assist and industrial applications.
In this training, the audience will learn about the unique challenges faced by automotive system designers today to implement circuitry to detect external switches in a vehicle. The audience will understand the unique features offered by the MSDI and how they help solve these challenges. The audience will also learn about some of the more advanced features offered by the MSDI and how a system designer can take advantage of them in their design. The application of using the MSDI in an industrial system will also be briefly discussed.
TI's Resonant Sensing Technology is changing the landscape of the white goods market and home appliances by providing sleek new interfaces, enhanced system awareness, and improved system efficiency metrics. This training session covers the Resonant Sensing fundamentals, application deep dives, and finally tricks and tips for designing with the technology.
More and more end equipment start to use proximity sensors to detecting the presence of nearby objects without physical contact by using electromagnetic fields, light or sound, e.g. major appliances, cell phones, robot and so on. There are many types, each suited to specific applications and environments. The object being sensed is often referred to as the proximity sensor's target. Different proximity sensor targets demand different sensors. By analyzing the basic principle of different types of sensor, comparison result with advantages and disadvantages can be achieved.
This module discusses discrete implementation typically seen inside automotive body control module to monitor external switches. Common implementation methodology is reviewed in this section, and some of the challenges using discrete implementation is discussed in detail.
In this section, the MSDI concept is introduced and how the MSDI helps solve system challenges is discussed in details
This module discusses some of the advanced features offered by the MSDI, and how a system designer can take advantage of these features to improve their system performance.
This module discusses how the MSDI device can be used in an industrial data acquisition system in details.
This module concluds this traning session with highlights of the MSDI value propositions, as well as collaterals available to obtain more information about this MSDI device from Texas Instruments.