C2000 MCU DesignDRIVE, a new evaluation platform to explore numerous industrial drive subsystems and motor control topologies. This evaluation platform supports various motor types, current sensing technologies and position sensors.
An introduction to the new DesignDRIVE Position Manager technology for TMS320F28379D and TMS320F28379S Delfino(TM) real-time controllers. Position Manager provides solutions for interfacing to servo motor rotor absolute position sensors such as resolvers, SIN/COS, EnDat 2.2 and BiSS-C.
This section contains training on DesignDRIVE current loop control innovations.
EMI/EMC and isolation standards for motor drives provide surge, EFT, ESD and EMI protection for longer lifespan and higher reliability of your application. Watch this to understand the different standards from the system level—down to the component level.
Meeting EMC immunity requirements yields to a more robust motor drive system with better performance and less down-time in harsh industrial environments. Learn more about the IEC 61800-3 relevant standard and test methods referring to IEC61000-4 for variable speed motor drives.
EMC immunity standards and test methods: EMC compliant interface (RS485) to absolute position encoders TI reference design system example
In part two of the training, you learned more about the IEC 61800-3 relevant EMC immunity standard and test methods for variable speed motor drives. In part three, you will study a system example of an EMC compliant interface (RS485) to an absolute position encoders TI reference design.
View the reference design here: www.ti.com/tool/tida-00179
Watch to learn more about the IEC61800-5-1 system isolation standards versus relevant component standards. Basic isolation and reinforced isolation will be compared and a system example of an isolated 3-phase inverter with reinforced isolated gate drivers reference design will be shown.
View the reference design: www.ti.com/tool/tida-00196
New to mm-wave sensing? This series of five short videos provides a concise yet in-depth introduction to sensing using FMCW radars.
Labs are follow-along training videos that walk you through installation, building, and running example mmWave sensor projects.
Although motor drives have been around for many years, trends in Industry 4.0 such as TSN, industrial IoT, and functional safety are revolutionizing the role a drive takes in the Smart Factory. Where typically its main function was to drive a motor, a servo drive now must include other features to conform with the needs of Industry 4.0. This paired with the rapid growth of the robotics market has created a need for Smart Servo drives with multi-axis capabilities.
All the content from the 4-part webinar series launched last November 2018 is now available as an open source in our Training Portal for all of the users interested in the motor drives and control topic.
Provides details of the software, hardware, tools, and resource components that make up the SimpleLink SDK software development kit, with an overview of TI-RTOS concepts and labs illustrating how to use the SDK to build and port applications between SimpleLink devices.
The mmWave training series is designed for you to learn the fundamentals of FMCW technology and mmWave sensors, and start development quickly. TI's portfolio of mmWave sensors features the AWR automotive radar sensor family and the IWR industrial mmWave sensor family, which are intended to be used for detecting range, velocity and angle of objects. Learn more about the silicon, tools, software and some of the applications for both mmWave families in the mmWave training series.