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It’s cost-efficient. It’s performance-efficient. It’s got advanced embedded security, CAN FD and HS-USB!
The LPC5500 MCU Arm® Cortex®-M33 based series is growing — and quickly. Learn more about the LPC551s/S1x MCU family, its companion development board — the LPC55S16-EVK —and how its unique combination of certifications and features help address the demanding requirements of industrial and IoT applications.
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Getting Started with 150 MHz Arm® Cortex®-M33-Based MCUs
- Part 1 - Securing Sensor Interface with NXP Secure Elements and MCUs
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| About This Course |
| In this session, the participants will have the latest view of the LPC55xx Cortex®-M33-based microcontrollers from NXP. We'll review details of the Edgelock™ SE050 Secure Element with a special focus on the security use cases addressed. A live demo showing the implementation of securing sensors interfacing using SE050 and LPC55S69 will then end the presentation. |
| Training Outline |
- Explore the Edgelock™ SE050 Secure Element and security use cases
- Review the implementation of securing sensors interfacing using SE050 and LPC55S69
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Getting Started with 150 MHz Arm® Cortex®-M33-Based MCUs
- Part 2
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| About This Course |
| In this session, Mark Dunnett from Arrow explain how to get started with NXP’s LPC55S16 device—a 150 MHz Arm Cortex-M33-based microcontroller. In 60 ‘hands-on’ minutes, Mark will teach you how to install NXP’s free development environment MCUXpresso IDE, the software development kit (SDK) and use the pins and clocks configuration kit to create your first Cortex-M33 application using the LPC55S16-EVK evaluation kit. |
| Training Outline |
- How to install NXP’s free development environment MCUXpresso IDE
- Creating your first Cortex-M33 application
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Getting Started with 150 MHz Arm® Cortex®-M33-Based MCUs
- Part 3
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| About This Course |
| In this third session of our series of webinars, Mark Dunnett from Arrow Electronics explains how to get started with the LPC55S16 MCU— a 150 MHz Arm® Cortex®-M33-based microcontroller. |
| Training Outline |
- How to use the pins and clocks configuration tools to set up the clock tree on the LPC55S16 device for a variety of use-cases
- How to set up the pin multiplexing to suit your application
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CANopen and NXP MCUs: Proliferating Robust Network Communication with Fast Evaluation and Deployment
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| About This Course |
| Controller area network (CAN) delivers robust communications for embedded devices. To take full advantage of CAN, a higher-level protocol is needed. In this session, learn how NXP and Embedded Systems Academy (EmSA) are proliferating CAN with hardware, software and tools. |
| Training Outline |
- Preparing MCUXpresso
- Customization for Real Project
- NXP Microcontrollers With CAN
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Secure Provisioning and Programming Using Embedded Trust and the Security-enabled LPC55S6x MCU
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| About This Course |
| In this session, you'll learn how Secure Thingz Embedded Trust provides lifecycle management of secrets and integrates with Secure Deploy for the production programming of NXP's LPC55Sxx devices. In this course, Secure Thingz shows its solutions based on IAR and how to apply its philosophy through secure software. |
| Training Outline |
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LPC5500 MCU Series overview
- IAR Systems and Secure Thingz Solutions
- Functional Safety in the Robot-car Era
Q&A Section
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Enabling Secure, NB-IoT End Nodes with MCUXpresso Enablement and PSA-certified MCUs to Address the Growing Industrial IoT Market
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| About This Course |
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NXP and Sequans collaborate to offer a best-in-class LTE for IoT plus MCU solution that is based on Sequans expertise in cellular IoT connectivity and NXP’s expertise in low-power MCUs. The result is an easy-to-use solution for IoT device development or prototyping that will work on LTE networks around the world on supported operators in the USA, Japan, Australia and Europe. Watch now to learn how to take advantage of this unique solution.
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| Training Outline |
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LPC5500 MCU Series Overview
- Introduction to Connectivity
- Demo
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Developing for the IoT Using Secure-enabled NXP MCUs With TrustZone®-M Technology
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| About This Course |
| With the explosion of the IoT, the need for enhanced security, additional processing power and decreased power consumption is a strong requirement of MCU's today. In this webinar, we further explore the Arm® Cortex®-M33-based LPC5500 MCU series, its dramatic power consumption improvements and advanced security capabilities to power your next-generation IoT applications. |
| Training Outline |
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LPC5500 Target Applications
- LPC5500 Overview
- LPC5500 Security
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Enabling Motor Control Across a Range of NXP MCUs
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| About This Course |
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In this session, you will learn how to quickly configure NXP MCUs to achieve a host of different motor control applications.
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| Training Outline |
- Motor control and Power Conversion Overview
- NXP MCUs and Crossover MCUs Platforms
- NXP Tools and Support
- Programming and Debugging Tools
- Embedded Software Libraries
- Functional Safety
- NXP Web Pages and Useful Links
- Summary
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Exploring MCUXpresso IDE 11.1
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| About This Course |
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In this technical webinar, we explore some of the latest MCUXpresso IDE release, v11.1. We will show some of the new general features, as well as improvements for debugging, the SDK board creator and also improvements for the Cortex M33 secure projects for the LPC5500.
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| Training Outline |
- Recap of the MCUXpresso Ecosystem
- Tools suite and key elements.
- Live Demonstration of:
- New welcome screen and SDK selection options.
- New image information features.
- Variable graphing.
- SWO profiling quick look.
- Recap of Other Feature Updates
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Robust Network Communications With CANopen and CANopen FD
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| About This Course |
Introducing Embedded Systems Academy’s (EmSA) CANopen Middleware in the NXP MCUXpresso SDK.
Controller area network (CAN) isn’t just found in the automotive world, it can be used in applications such as industrial automation, motor control and many others. The high-level communication protocols CANopen and CANopen FD are partially responsible for CAN’s acceptance in these newer applications. The standardized profiles of both CANopen and CANopen FD simplify the task of integrating them into a system, while keeping them “open” enough for customization.
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| Training Outline |
- MCUXpresso and CANopen Overview
- LPC5500 MCU Overview
- CANopen with NXP Demonstration
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