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722 Results

Power fundamentals - buck regulator architectures

This series provides an overview of the various buck regulator architectures, including:

  • Multi-Phase Buck Regulators
  • Hysteretic Buck Regulators
  • COT Buck Regulators
  • Current/Emulated Current Mode Buck Regulators
  • Voltage Mode Buck Regulators

MSP430FR5969 LaunchPad Development Kit training series

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.

MSP430FR4x/FR2x MCU Overview Workshop

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.

Sitara™ ARM® Processors Boot Camp Training Series

To help explore infinite design possibilities with TI Sitara™ ARM® Processors, Texas Instruments has created the Sitara ARM Processors Boot Camp. This modular training series for TI’s Sitara ARM Processors is based on the latest development kits from TI and provides in-depth technical discussion and hands-on exercises for all aspects of the solution; from architecture to peripherals to software and development environments.

KeyStone ARM & DSP Multicore Device Training Series

This training series provides an in-depth look at KeyStone multicore SoC devices.

SimpleLink™ Sub-1 GHz wireless solutions for the IoT: robustness & long range (3-part series)

Sub-1 GHz gives you kilometers of range with very low power consumption. The RF bands are license-free and the robust co-existence technology solves the increasing problem of interference from other wireless systems. Sub-1GHz is suited for applications running on small batteries: Metering and smart grid, alarm and security and home automation.

Getting started with the MSP430 5xx Experimenters Board (7-part series)

This 7 Part Series with the MSP430 5xx Experimenters Board will cover the following topics:

  • Introduction
  • 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

SimpleLink™ MSP432™ low-power + high-performance MCUs training series

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.

Teaching Old Motors New Tricks with C2000

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.

Control Theory seminar

This 4-part technical seminar offers an introduction to control theory which is of value 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. 

Agenda
  1. Fundamental concepts: Linear systems, transient response, frequency analysis, classification of systems
  2. Feedback systems: Effects of feedback, Nyquist analysis, stability margins, phase compensation
  3. Transient response: Transient specifications, steady state error, PID control, root locus analysis
  4. Discrete time systems: Sampled systems, the z-transform, aliasing, delay & reconstruction, discrete transformations
Description
  • The course opens with a review of fundamental concepts, including linear differential equations and the Laplace transform. The behaviour of classical first and second order systems is examined in both the time and the frequency domains. 
  • The second section introduces closed loop control and the effects of negative feedback in the frequency domain. The Nyquist plot is introduced as a valuable tool to assess control loop stability and performance, and is applied to the design of phase compensators. 
  • The central theme of section three is control performance in the time domain. The design and tuning of PID controllers is explained using the step response, and various methods of assessing quality of response are presented. The root locus plot then is introduced as a method of designing complex systems to meet transient response specifications. 
  • Section four focuses on discrete time systems.  The z-transform is introduced, and the relationship between the s-plane and z-plane explained in detail.  The design of digital closed loop controllers is then described using emulation and direct design methods.  Also covered are some important practical considerations when implementing discrete time controllers, including aliasing, sample rate selection, the effects of computational delay, and zero order hold.
  • The material is supported by many examples and tutorials, and includes a short question & answer session at the end of each section.  Matlab is used throughout the seminar to introduce new concepts and to illustrate each major topic.  A printed copy of the seminar manual containing the presentation material is issued to each attendee at the start of the course.

C2000 InstaSPIN-FOC Motor Control LaunchPad and BoosterPack

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.

Power fundamentals - DC-DC fundamentals

This five-part series provides an overview of DC-DC converters.

Power fundamentals - linear regulator fundamentals

This five-part series provides an overview of linear regulators.

Switching Power Supply Component Selection

This 7-part series discusses tips and best practices for selecting the appropriate components for your switching power supply.

SimpleLink Wi-Fi CC3100 Project 0 Series

These videos support the software tool series for SimpleLink™ Wi-Fi CC3100:

  • SimpleLink™ Wi-Fi CC3100 Project 0: Energia IDE
  • SimpleLink™ Wi-Fi CC3100 Project 0: Microsoft Visual Studio
  • SimpleLink™ Wi-Fi CC3100 Project 0: IAR Embedded Workbench
  • SimpleLink™ Wi-Fi CC3100 Project 0: Code Composer Studio IDE

SimpleLink Wi-Fi CC3200 Project 0 Series

These videos support the software tool series for SimpleLink™ Wi-Fi CC3200

  • SimpleLink™ Wi-Fi CC3200 Project 0: Energia IDE
  • SimpleLink™ Wi-Fi CC3100 Project 0: IAR Embedded Workbench
  • SimpleLink™ Wi-Fi CC3100 Project 0: Code Composer Studio IDE

C2000 Concerto F28M3x Microcontroller Training Series

This presentation series will define the position of the Concerto MCU devices 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

Use MSP432 microcontrollers to bring high performance to low-power 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. Developers need to achieve higher performance within the same power footprint if battery life is not to be compromised.

Near Field Communication (NFC) Training Series

Near Field Communication (NFC)  is a radio technology enabling bi-directional short range wireless communication between devices to make life easier and more convenient for worldwide consumers by simplifying transactions, digital content exchange, and electronic device connection with a touch.

State Space Control seminar

A 4-part course in control theory based on the spate space modelling paradigm.  This course is often taught in conjunction with the

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