MSP430 MCUs featuring CapTIvate technology are the most noise-immune capacitive touch MCUs, and first to feature an IEC61000-4-6 certified solution. These MCUs feature the most configurable combination of buttons, wheels, sliders and proximity sensing interfaces, as well as support for metal touch, glove-proof and moisture-tolerant designs, all at the world's lowest power.
This training series details the key features of MSP430 MCUs featuring CapTIvate technology, enabling you to get started on your next great capacitive touch design and get to market more quickly.
As more and more IoT products are being connected to the internet, the security of these devices is becoming increasingly important. A security-focused approach should be taken when building IoT products to protect users’ privacy and block any malicious activity.
This training series covers LEA or Low Energy Accelerator a vector math co-processor, the performance benchmark, and how to get started on the new MSP430FR599x. LEA is capable of performing various signal processing tasks efficiently without any CPU intervention. For example, LEA can perform a 256-point complex FFT in just ~5k cycles whereas a Cortex-M4F would take approximately 17k cycles (3.6x improvement).
This series outlines a number of Embedded Security Fundamentals as well as a portfolio overview for MSP430 and MSP432 microcontrollers. These are just some of the topics covered in this series:
- Understand embedded security fundamentals
- Security terminologies and definitions
- Embedded microcontroller user requirements
- Microcontroller devices security offerings and development model
Below are the SimpleLink Academy modules associated to the SimpleLink CC13x0 Wireless MCUs.
Below are the SimpleLink Academy modules associated to the SimpleLink MSP432 Host MCU.
Below are the SimpleLink Academy modules associated to the SimpleLink CC2640R2 Wireless MCU.
Below are the SimpleLink Academy modules associated to the SimpleLink CC32x0 Wireless MCU.
The Internet of Things (IoT) is now part of the smarter grid through the adoption of IPv6 communications networks. These 6LoWPAN-based networks address key concerns such as standards-based interoperability, reliability, low power, and long-distance connectivity.
Advanced closed-loop control systems for factory, process, and power automation markets require powerful MCU solutions that can interface to variety of industrial communications protocols. As new features and capabilities are added, these protocols may evolve several times during the lifetime of an industrial product. As a result, system providers can benefit from solutions that flexibly support multiple communications protocols and in-service updates without updating hardware.
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.
Delta-sigma analog-to-digital converters (ADCs) are oversampling converters typically used in applications requiring higher resolution. However, ADCs do not work by themselves. In fact, they require several key components around them, including a front-end amplifier, a voltage reference, a clock source, power supplies, and a good layout. Many devices integrate these features together with the ADC to offer a complete system solution, which simplifies the design for customers and minimizes board space.
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.
Introducing TI's fully qualified hardware and software solution for Bluetooth 5.
In addition to the Delfino and Piccolo MCU families, there are other MCU offerings in the C2000 family that provide real-time control functionality.
This five part training series covers the following topics:
- Part 1: Basics of FMEDA and how it is useful in system level safety analysis
- Part 2: Introduction to the C2000™ Tunable FMEDA
- Part 3: Detailed overview of the C2000™ Tunable FMEDA
- Part 4: Benefits of customization on the C2000™ FMEDA
- Part 5: Demo - How to tune the C2000™ FMEDA to your application specific needs?