This six part training walks through the usage of the MSP430FR5969 LaunchPad. The training explains the working of the demo code that is pre-programmed in the LaunchPad. You will also learn how to setup CCS projects and initialize and use key peripherals in the MSP430FR59xx family of MCUs.
The MSP430 ultra-low-power microcontroller family now includes the MSP430FR4x/FR2x series of MCUs with unmatched flexibility in the form of the industry’s lowest-power software-configurable LCD driver, abundant IO and unified non-volatile FRAM. These easy to use microcontroller series can be evaluated with the low cost MCU development tool, the MSP430FR4133 LaunchPad. Target Socket boards can also be paired with the MSP-FET programmer/debugger for development in a full system.
This 7 Part Series with the MSP430 5xx Experimenters Board will cover the following topics:
- Active and low power mode operation
- Mixed signal application example
- Hardware timers to conserve power
- Implementing a fully optimized ADC12 routine
- MSP430 tools, resources, and conclusions
While the market requires better power performance, it also continuously demands more functionality from devices. The challenge many developers face today is maintaining or improving battery operating life while simultaneously increasing a device’s capabilities. For many devices, it is not feasible to increase battery size or capacity; this means that developers need to achieve higher performance within the same power footprint, if battery life is not to be compromised.
While motor topologies have remained relatively unchanged over the past century, control techniques by comparison have experienced explosive growth. This has been driven in large part by technology advancements in the semiconductor industry. This seminar focuses specifically on advancements in the control of motors, with an emphasis on field-oriented principles with brushless AC motors.
This technical seminar offers an introduction to control theory which will be valuable to electronic, electrical and mechanical engineers. The aim is to provide engineers with an insight into elementary control problems and their solution. An understanding of basic engineering mathematics is recommended to benefit fully from this course.
This 6 part series provides information for C2000 InstaSPIN-FOC Motor Control LaunchPad and BoosterPack.
The InstaSPIN™-FOC enabled C2000™ Piccolo LaunchPad is an inexpensive evaluation platform designed to help you leap right into the world of sensorless motor control using the InstaSPIN-FOC solution.
This online training series will teach you the details necessary to utilize the Control Law Accelerator (CLA)
These video series will talk about the different types of motors used in the industry; DC, Brushless DC, Steppers, Permanent Magnet Synchronous, and AC Induction. To gather a better understanding of motors, differences of these motors with advantages and disadvantages of each will be shown. Basic motor drive circuits will be discussed from full H-Bridge drive to half-bridge for 3-phase motors. Other drive concepts such as 6-step commutation along with drive issues such as current recirculation will be discussed. Field Oriented Control will also be discussed and how
This 6-part training will provide technical overviews of various features on the TM4C129x Series Microcontrollers developed specifically for applications that simultaneously connect, communicate and control.
This presentation series will define the position of the Concerto MCU series in the C2000 MCU family and discuss the features and benefits that make this a no compromise solution. There will be a review of the safety features which have been made necessary by the advances in greener technologies. The intuitive software, which helps reduce time to market will be highlighted and there will be a short discussion of available training and tools
This hands-on workshop is designed to help analog and digital engineers get familiar with key requirements for a digital controller to be used in a digitally controlled power supply system. You will learn about the important features available on TI’s C2000 devices and how they are well suited to be used in DPS applications. The workshop also shows how a C2000 device can interface to and control a power stage. C2000 32-bit high performance microcontrollers are used in a wide variety of industrial applications.
While the market requires better power performance, it also continuously demands more functionality from devices. The challenge many developers face today is maintaining or improving battery operating life while simultaneously increasing a device’s capabilities. For many devices, it is not feasible to increase battery size or capacity.
InstaSPIN-FOC is a sensorless field-oriented motor control algorithm which runs on select C2000 devices. This presentation is intended for customers who are currently using or considering InstaSPIN-FOC.
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.
In-field firmware updates are becoming an increasingly popular feature supported on products that are deployed to the field; however, this feature is also very commonly exploited by attackers, and if vulnerable, can compromise the security of the system. In this series we will discuss the various security concerns for in-field firmware updates, and a solution for increasing the security of in-field firmware updates in ultra-low power MSP microcontrollers - called the Crypto-Bootloader.
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.