This module discusses how the MSDI device can be used in an industrial data acquisition system in details.
Labs are follow-along training videos that walk you through installation, building, and running examples of mmWave sensor projects.
TI's Jacinto TDA2/TDA3 System-on-Chip (SoC) family offers scalable and open solutions based on a heterogeneous hardware and common software architecture for Advanced Driver Assistance System (ADAS) applications including camera-based front (mono/stereo), rear, surround view and night vision systems in addition to multi-range radar and sensor fusion systems.
This training series provides an overview of the evaluation and development platforms as well as getting started with the software and development tools offered by TI on the Jacinto TDA2/TDA3 processors.
This presentation will focus on the voltage and current monitoring solutions within HEV/EV system – specifically on overcoming the challenges of high voltages and maintaining an isolation barrier. Afterwards, we will discuss specific op amp parameters to consider for monitoring within the on-board charger (OBC), battery management system (BMS), DC/DC converter, and inverter end equipment.
This section presents the buck-boost dc-dc converter as an effective and efficient solution for the wide vin automotive battery rail. The advantages compared to pre-boost and two stage solutions are presented. Also contains an overview of buck-boost converter and controller offerings convering various current and power levels.
Riding Out Automotive Transients : Architecting Front End Power Conversion Stage for Automotive Off-Battery Loads
With rapidly expanding electronic content in latest generation of cars, there is an ever increasing need for power conversion from the car battery rail. The 12-V battery rail is subject to a variety of transients. This presents a unique challenge in terms of the power architecture for off-battery systems. This presentation introduces the different types of transients that occur in automotive battery rails, the causes of those transients, and the standards and specifications defining the test conditions for those transients.
This section presents the different methods of protecting the electronic loads connected to the automotive battery rail in the event of accidental reverse battery connection. The methods covered include:
- Schottky diode
- PFET + discretes
- Smart diode + NFET
This video series describes the concept, design and evaluation of PoC (power over coax) commonly used in ADAS sub-systems.
EMI (electromagnetic interference) mitigation is a critical step in the design process in most electronic systems, and especially so in the automotive world. In many cases, automotive OEM emissions requirements are even more stringent than both national and international standards bodies like the FCC. Unfortunately, by their nature, switching regulators are sources of EMI; but, in order to keep power supply designs small and efficient, switchers are a critical component. So how can you reap the benefits of a switching regulator while still meeting challenging EMI requirements?
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.