Prepare for Microchip EMEA MASTERs 2025

Curriculum

• Syllabus
• About MASTERs
• Rich Simoncic Keynote
• Products and Solutions
• 25002 PNS2 - Microchip Is... Analog, Power, Silicon Carbide, Discrete, Timing and Power over Ethernet Products
• Microcontrollers and Microprocessors
• 25004 MCU1 - Getting Started with PIC32C and SAM Arm® Cortex® M Microcontrollers
• 25006 MCU3 - Configurable Logic Block Part 1 - Harnessing the Power of Programmable Logic in PIC® Microcontrollers
• 25007 MCU4 - Configurable Logic Block Part 2 - Advanced Applications and Labs
• 25008 MCU5 - Analog MCU Cookbook: Unlocking the Power of Integrated Analog Peripherals
• 25009 MCU6 - Low-Power Design with Microchip's Arm® Cortex® Microcontrollers: Essential Techniques
• 25010 MCU7 - Exploring the Power of Microchip's new 32-bit Digital Signal Controllers: Architecture and Peripheral Overview
• 25011 MCU8 - PIC64: The Master of Real- Time
• Field Programmable Gate Array
• 25012 FPGA1 - Getting Started with Microchip FPGAs
• 25015 FPGA4 - Introduction to SmartHLS High-Level Synthesis Compiler
• 25017 FPGA6 - Designing an Application for non-FPGA Engineers using LiberoSOC Design Tools
• 25018 FPGA7 - Simulation and Hardware Debugging for FPGA Designs
• Development Tools
• 25019 DEV1 - MPLAB Extensions for VS Code
• Firmware Design and Compilers
• 25022 FRM3 - Build Better Prototypes in Less Time with MCC Melody
• 25024 FRM5 - Designing Hardware Independent APIs for Embedded Systems
• 25025 FRM6 - Mastering GUI Design with Microchip Graphics Suite
• 25026 FRM7 - Microchip Device Firmware Update Ecosystem
• Linux
• 25027 LNX1 - Custom Linux® Hardware Integration
• 25028 LNX2 - Creating Feature-Rich Linux® Applications
• 25029 LNX3 - Developing Asymmetric Multi-Processing (AMP) Systems with Linux® and Zephyr®
• Artificial Intelligence/Machine Learning
• 25030 AIML1 - Shining a Light on AIML: An Introduction to Machine Learning
• 25031 AIML2 - Dynamic logging with sensor fusion on multiple edges with Stream Analyze Engine
• 25033 AIML4 - Easy Computer Vision with MPUs and Edge Impulse
• Real Time Operating Systems
• 25036 RTOS2 - Using Zephyr® RTOS on Microchip MCUs
• 25037 RTOS3 - Building Zephyr® Applications Using State Machine Framework
• Analog and Mixed Signal
• 25038 ANG1 - Reduce noise and improve analog precision Using MPLAB® Mindi™ Simulator
• Signal Integrity and PCB Design
• 25041 PCB1 - Optimizing PCB Layout for Noise Reduction
• 25043 PCB3 - What really is EMI and How do I Tackle it? Part 1
• 25044 PCB4 - What really is EMI and How do I Tackle it? Part 2
• 25045 PCB5 - Create Your Next proof of concept using AI within minutes
• 25046 PCB6 - Power Delivery Network (PDN) Design: Fundamentals and Best Practices
• 25100 PCB7 - From Discovery to Production – a Modern Design Journey
• 25101 PCB8 - Accelerating Microchip based Power Electronics Design Using Siemens EDA Tools
• 25102 PCB9 - PCB Design and Verification for Cyber Resilience Act (CRA) Compliance
• Clock and Timing
• 25047 CLK1 - Understanding Clock Technologies and Stability Metrics
• Ethernet
• 25049 ETH1 - Fundamentals of Single Pair Ethernet Standards and their Applications
• 25050 ETH2 - Using Microchip Ethernet Switches to provide Deterministic, Reliable, and Scalable connectivity.
• 25051 ETH3 - Securing Ethernet with MACsec and MACsec Key Agreement (MKA)
• 25052 ETH4 - The Clock is Ticking on Time Sensitive Networking
• 25053 ETH5 - Introduction to EtherCAT®: Unlocking Real-Time Communication in Industrial Networks
• Internet of Things (IoT)
• 25056 IOT1 - WIFI and IOT a hands on primer
• 25057 IOT2 - Simplify Your Next IoT Design with UART to Cloud controller
• 25058 IOT3 - Kick-Starting IoT Solutions with MicroPython
• Low Power Wireless
• 25060 LPW2 - Bluetooth® Low Energy (BLE) Made Easy
• 25061 LPW3 - Thread a hands on introduction
• Functional Safety
• 25062 FUSA1 - Introduction to Functional Safety
• 25063 FUSA2 - Functional Safety Hardware Development
• 25064 FUSA3 - Functional Safety Software Development
• Human Machine Interface
• 25065 HMI1 - Innovations in Capacitive touch: the challenging applications that Microchip’s capacitive touch technology can enable.
• 25066 HMI2 - How to Easily Create Your First Capacitive Touch Project with MPLAB® Code Configurator (MCC) Melody
• 25068 HMI4 - Implementing Capacitive Touch I2C Host Interface for MTCH2120
• 25069 HMI5 - Capacitive Digital Level Sensing for Liquids and more…
• Security
• 25070 SEC1 - Introduction to Cryptography: Demystifying the magic
• 25071 SEC2 - Cyber Regulations : Impact on Product Development and Business Risk
• 25073 SEC4 - Hands-On Security with Secure Elements and HSMs for Embedded Engineers
• 25074 SEC5 - Mastering MCU Security: Keeping Your Firmware Safe using an HSM
• 25075 SEC6 - Mastering Secure Boot for MPUs
• 25076 SEC7 - Firmware-Over-The-Air Update made Easy, Secure and Scalable
• 25099 SEC8 - Cyber Resilience Act
• Sensors
• 25077 SENS1 - Mastering Inductive Position Sensors
• 25078 SENS2 - Electrochemical Gas Sensors: Principles and Applications
• 25080 SENS4 - Cyborg Lab 101: Signal Acquisition for Biomedical Prosthetic Devices
• Motor Control
• 25082 MTR1 - High performance motor control using low-cost MCUs
• 25083 MTR2 - Brushless motor control workshop
• 25084 MTR3 - No-Code Motor Control Solutions
• 25085 MTR4 - Developing Motor Control Applications using Model Based Design
• Power Supplies and Power Conversion
• 25089 PWR4 - Fundamentals of Digital Power Supply Control
• 25090 PWR5 - Introduction to Power Supply Applications with the new dsPIC33A Digital Signal Controller
• 25091 PWR6 - Fundamentals of Digital Power Model Based Design with MATLAB/ Simulink
• 25093 PWR8 - Multilevel AC/DC Power Supply Design Review
• 25094 PWR9 - Why Silicon Carbide (SiC), Why Now?
• USB & PCI
• 25092 USB2 - USB 3.0 & PCI Type-C Explained: Fundamentals, Use Cases, and Debugging
• 25098 PCIE1 - Fundamentals of PCIe?