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Configurable Logic Block (CLB) training for C2000 MCUs

Configurable Logic Block (CLB) Training for C2000™ MCUs

Does your industrial control system include customized logic?  Do you have an FPGA, CPLD, or external logic components supplementing your embedded controller and wonder “why can’t this all be done in one device?” Are you using this additional logic because your MCU peripherals don’t give you all the capability you need?  With the Configurable Logic Block (CLB) peripheral you are able to implement custom logic and even augment existing C2000 peripherals like the PWMs, captures, quadrature encoder, and GPIOs.  This can enable you to integrate critical functions into a sing

Control Applications

For control applications, an understanding the fundamentals of control theory is required.  These trainings provide a foundation for creating control applications and provide some advanced training on the spate space modelling paradigm.

Control Applications

For control applications, an understanding the fundamentals of control theory is required.  These trainings provide a foundation for creating control applications and provide some advanced training on the spate space modelling paradigm.

Control Applications

For control applications, an understanding the fundamentals of control theory is required.  These trainings provide a foundation for creating control applications and provide some advanced training on the spate space modelling paradigm.

Control Law Accelerator (CLA)

This section incorporates all C2000 videos specific to the Control Law Accelerator, or CLA
Control Law Accelerator

Control Law Accelerator (CLA) Hands-On Workshop

The Control Law Accelerator is a 32-bit floating point math accelerator that is common on most c2000 devices. It aids in the concurrent processing of fast control algorithms.

After viewing the lectures, and working through the provided example, you should be in a better position to migrate existing algorithms from the main C28x core to the CLA, or start programming on the CLA from scratch.

Control Law Accelerator (CLA) hands-on workshop

The Control Law Accelerator is a 32-bit floating point math accelerator that is common on most c2000 devices. It aids in the concurrent processing of fast control algorithms.

After viewing the lectures, and working through the provided example, you should be in a better position to migrate existing algorithms from the main C28x core to the CLA, or start programming on the CLA from scratch.

Control Law Accelerator

Debugging on the CLA

Once you have ported your code over to the CLA and successfully built your executable, it’s time to debug. The CLA pipeline is unprotected and is debugged through the main CPU; you cannot debug code on the CLA in the same manner you would on the C28x. This module goes over the different aspects of setting breakpoints, single stepping and setting up CCS views when debugging the CLA.

Delfino Premium Performance MCUs

The C2000™ Delfino™ MCUs are a line of high-performance solutions that provide more processing capabilities, memory, and peripherals to lower system cost while delivering more efficient control capabilities. These high-performance, floating-point Delfino microcontrollers include an on-chip, high-precision analog-to-digital converter, along with an external low-cost signal conditioning circuit supporting:

DesignDRIVE

This section covers DesignDRIVE.

Designing 6.6kW Bidirectional HEV/EV On-Board-Charger with SiC and Embedded Technologies

In this series of presentations, we go through the HEV/EV market status and history, OBC specifications, technology trend, topology selections and design considerations of an OBC system. Complete test results of a 6.6kW OBC reference design (Including AC-DC rectifier and isolated DC-DC converter) will be shown in the end of this paper to demonstrate the performance of our TIDesigns as well as TI SiC and embedded Technologies.

Devices

Explore training modules to gain an understanding of the core attributes of the Piccolo MCU family.

Devices

Explore training modules to gain an understanding of the core attributes of the Delfino MCU family.

Devices

Explore training modules to gain an understanding of CLA and its benefits to the C2000 family of MCUs.

Digitally Controlled High Efficiency and High Power Density PFC Circuits

In recent years, more attention is focused on increasing power conversion efficiency and power density for universal input power factor correction (PFC) converters while maintaining high power factor (PF) and low input current total harmonic distortions (THD). TI C2000 MCUs with DPWM modules and integrated analog peripherals are uniquely positioned to implement efficient digital control of such power converters. This presentation will introduce two bridgeless PFC designs using C2000 MCU.

Functional safety on C2000 MCUs

This series of videos covers functional safety as it relates to C2000 MCU devices.

Getting started with InstaSPIN-FOC

This series of videos helps you get started with InstaSPIN-FOC (Field Oriented Control) for select C2000 devices.

InstaSPIN - MOTION

This section covers InstaSPIN - MOTION.
Control Law Accelerator

Introduction to the CLA

This module covers the architecture of the CLA, the resources at its disposal and the division of code into task blocks that are triggered by peripherals or through software. Each of these task blocks are atomic, in the sense that no other task may interrupt a running task. This makes operation of the CLA unconventional in comparison with standard CPUs.

Introduction to the F28004x series

These videos introduce the C2000 TMS320F28004x family of devices.

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