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- 16-bit PIC MCUs The 16-bit PIC24 Family is comprised of two sub-families. The PIC24F offers a cost-effective low power step up in performance, memory and peripherals for many applications that are pushing the envelope of 8-bit microcontroller capabilities. For more demanding applications, the PIC24H offers 40 MIPS performance, more memory and additional peripherals, such as CAN communication modules. For more information visit: www.microchip.com/16bit
- 32-Bit MCU Digest
- 32-bit PIC® and SAM MCUs The PIC32 family adds more performance and more memory while maintaining pin, peripheral and software compatibility with Microchip's 16-bit MCU/DSC families. The PIC32 family operates at up to 80 MHz and offers ample code and data space capabilities with up to 512 KB Flash and 128 KB RAM. For more information visit: www.microchip.com/32bit
- 32-bit SAM and PIC® MCUs with MPLAB® Harmony and MCC
- 53100A Phase Noise Analyzer - Welcome to the Lab - Limited Series
- 8-bit Devices
- 8-bit MCUs Based on a powerful RISC core, the PIC microcontroller architecture provides users with an easy migration path from 6 to 100 pins among all families, with little or no code change required. Advanced features include sophisticated timing peripherals, integrated analog to- digital converters and communications peripherals (Ethernet/ I2C™/SPI/USB/CAN ports and LIN USARTs). For more information visit: www.microchip.com/8bit
- A Closer Look At
- Adaptec Support
- ADC Aspects
- Additional Technical Videos in Libero® SoC
- Amp'titudes
- Analog Development Tool Ecosystem Featuring Leroy and Lenny
- Analog Filter Video Series
- Ask Our Experts | About Clocks and Timing
- Ask Our Experts | About Core Independent Peripherals
- Ask Our Experts | About Core Independent Peripherals (CIPs)
- Ask Our Experts | About Memory
- Ask Our Experts | About Motor Control
- Ask Our Experts | About Platform Firmware Security
- Ask Our Experts | About Power over Ethernet (PoE)
- Ask Our Experts | About Secure Elements
- Ask Our Experts | About Silicon Carbide
- Automotive
- Automotive Ethernet Products Microchip is driving automotive connectivity with in-vehicle networks that use Ethernet, zonal control, gateways, high-performance central compute and telematics systems to develop an infrastructure for software-defined vehicles.
- AVR® DB OPAMP, XOSCHF and MVIO Hands-on Training
- AVR®-IoT Home Automation Kit
- Beyond the Microchip Welcome to Beyond the Microchip So much of our daily lives are controlled or influenced by electronics. We rely on GPS to direct us, we hit "brew" on our coffee machines for our mornin' cup of Joe, we wave our hands over a sensor to get running water from a faucet and press a button to open our garage doors. But do we really know what's going on inside? Are we aware of the universe of technology and calculations going on right under our nose? Beyond the Microchip takes you inside the world of Embedded Control technologies to understand how the chips and sensors we can't see impact our lives in dramatic ways. They remind us why we have and embrace technology, to enhance the human experience. Join us each episode as we look at an aspect of our daily lives that shapes what it means to be human and how we can empower the innovation that enhances that experience through Microchip Technology. Subscribe to Beyond the Microchip wherever you get your podcasts. Visit MCHP.com to learn more! Beyond the Microchip is available as an audio podcast on these platforms: Apple Podcasts - https://podcasts.apple.com/us/podcast/beyond-the-microchip/id1728516679 Spotify - https://open.spotify.com/show/2hzAvBT7mkwaU9Ean4IHxN?si=41203272f6ef480e Podbean - https://www.podbean.com/pu/pbblog-picfu-106ee69
- BlueSky™
- Bluetooth Audio Series Videos about Microchip's Bluetooth Audio Devices
- Bluetooth Data Series Series of videos for both Bluetooth Classic and Bluetooth Low Energy devices
- Careers and Culture
- CEC1736
- Chiptorials Microchip Tutorials
- Click Into MCC
- Clocks & Timing Tutorials
- Coffee Break
- Coffee Break | Power over Ethernet (PoE)
- Computing
- Configure Hardware in Libero® SoC
- Constraints Manager in Libero® SoC
- Core Independent Application Examples (CIP)
- Create Design in Libero® SoC Libero® SoC Design Suite offers high productivity with its comprehensive, easy-to-learn, easy-to-adopt development tools for designing with our FPGA device families. Libero SoC Design Suite provides you with an integrated hardware tool suite incorporating RTL entry through programming, a rich IP library, complete reference designs and development kits.
- Create Testbench in Libero® SoC
- Data Center Solutions
- Debug Design in Libero SoC
- Demos
- Design Partner Program Microchip takes great pride in developing long term relationships with design partners worldwide. Recognizing that time to market is a critical factor for our customers and partners, Microchip is dedicated to the success of our design partners by offering support, training and development tools that are easy to use.
- Designs for the Edge As we look to the future, we are focusing on six pivotal market areas: 5G network infrastructure IoT/edge computing Data centers Sustainability E-Mobility ADAS/autonomous driving As these markets continue to shape the technology landscape, developing complete system solutions in these areas is key. In this livestream series, we will delve into key applications within these markets, discuss design considerations, explore our core offerings and highlight their indispensable value in these transformative applications. Guided discussions led by subject matter experts explore the intersections of markets, technologies and real-world applications, illuminating the path forward for the tech ecosystem. Don’t miss this new series, airing weekly from May 8 through June 12, 2024.
- Dev Tool Bits Have a question, need a quick tutorial, or wonder if you’re getting the most out of your tools? Get tips and tricks from Microchip’s experts in our new Dev Tool Bits video series. Feel free to leave us a comment on what you’d like to see covered in future videos and make sure to Like and Subscribe to our channel!
- Development Tools Microchip Development Tools are software and hardware components to help you design applications using Microchip devices.
- Did You Simulate That? Improve Your Circuit Design Experience with the MPLAB® Mindi™ Analog Simulator.
- Digital Power Microchip's dsPIC® Digital Signal Controllers (DSCs) for Switch Mode Power Supplies (SMPS) and digital power conversion are designed for applications in AC to DC converters, DC to DC converters, Uninterruptible Power Supply (UPS), Renewable Power/Pure Sine Wave Inverters, Battery Chargers, HID lighting, Fluorescent lighting, and LED lighting.
- Discover 8-bit
- Discrete & Power Management
- dsPIC® DSCs
- dsPIC33 Digital Signal Controllers
- Embeded Design
- Ensemble Graphics Toolkit (EGT)
- Explainer Videos
- eXtreme Low Power Lowest power sleep modes with flexible wake-up sources * Sleep currents as low as 20 nA * Wake-up sources in every sleep mode * Special low power BOR, WDT, RTC
- Feature Overviews
- FPGA
- Frequency & Timing
- GestIC® Technology
- Getting Started | MPLAB® X IDE Essentials
- Getting Started | START Config Screens
- Getting Started with AVR® in MPLAB® X IDE
- Getting Started with CIP Hybrid Power PWM Controllers and MPLAB® X SMPS Design Tools
- Getting Started with CNano (MPLAB® Tools)
- Getting Started with CNano (START/Studio)
- Getting Started with Foundation Drivers
- Getting Started with Inductive Position Sensors
- Getting Started with MCC Melody Example Components
- Getting Started with Microchip Studio
- Getting Started with PIC® Microcontrollers
- Getting Started with the 12-bit Differential ADC and PGA on the tinyAVR® 2 Family
- Getting Started with the MPLAB® Cloud Tools Ecosystem
- Getting Started with the MPLAB® Code Configurator Content Manager
- Graphics Microchip Technology offers easy and cost-effective graphics solutions.
- Home Appliance Microchip Technology can help you implement the new features and functionality required for your next appliance design. By providing solutions for user interface, motor control, sensing, connectivity and more, your design teams can focus on implementing the application
- Human Machine Interface Division (HMID)
- Integrated OPAMP(s) on PIC® and AVR® MCUs
- Internet of Things (IoT)
- Intro to Bare Metal Programming with the AVR® Tiny2 Learn how to develop bare metal programs on the AVR® Tiny2 (ATtiny1627 family) of parts.
- Intro to Bare Metal Programming with the AVR® Tiny2 and AVR DD Learn how to develop bare metal programs on the AVR® Tiny2 (ATtiny1627 family) and AVR DD (AVR64DD32) family of parts.
- IoT Design Week 2020
- IoT Series IoT Series of Videos
- K2L - Connecting Networks
- Libero® SoC
- Libero® SoC Design Suite
- Livestreams
- LX7720 Radiation Hardened Motor Controllers
- Maker Faire 2024 See all the content we've made so far for Maker Faire 2024!
- Maker Faire Bay Area 2014
- Maker Faire Bay Area 2015 From life-sized humanoids and stair-climbing robots to pancake printers and drum-playing pants, Maker Faire Bay Area 2015 had it all. Over the weekend, tinkerers, modders and hackers of all ages and skills flocked a jam-packed Atmel booth, which showcased a number of uber-cool demos under this year’s theme “From Makerspace to Makerplace.” Among those on display included 14-year-old Quin Etnyre, DrumPants, Zymbit, littleBits, Zippy Robotics, Primo and of course the heart of the Maker community, Arduino. When it came to gizmos and gadgets driven by versatile 8- and 32-bit AVR and Atmel | SMART MCUs, it didn’t stop within our exhibit. In fact, countless other DIYers throughout the fairegrounds proudly showed off their embedded projects as well.
- Maker Faire Bay Area 2016
- Maker Faire Rome 2015
- MCHP NEWS
- MCP3x6x Key Features
- Medical
- Memory Microchip's broad portfolio of memory devices include Serial EEPROM, Serial SRAM, Serial Flash and Parallel Flash Devices. Our innovative, low-power designs and extensive testing have ensured industry leading robustness and endurance along with best-in-class quality at low costs. For more information visit: www.microchip.com/memory
- Microchip IoT Developer Guides for AWS
- Microchip Minutes
- Microchip Minutes - Application Demo Edition
- Microchip Minutes - MPLAB® Harmony Edition
- Microchip Minutes - MPLAB® Xpress Edition
- Microchip Minutes - SAM MCU Edition
- Microchip's Fan Controllers
- Mixed Signal & Linear Microchip's integrated analog technology, peripherals and features are engineered to meet today's demanding design requirements. Our broad spectrum of analog products addresses thermal management, power management, battery management, mixed-signal, linear, interface and safety & security solutions. Our broad portfolio of stand-alone analog and interface devices offers highly integrated solutions that combine various analog functions in space-saving packages and support a variety of bus interfaces. Many of these devices support functionality that enhances the analog features currently available on PIC® microcontrollers. For more information visit: www.microchip.com/analog
- Motor Control Our 8-bit Microcontrollers and 16-bit Digital Signal Controllers contain innovative on-chip peripherals designed specifically for motor control. With motor control devices from 8 to 100 pins, we have the perfect part for every application. Got a tight schedule? We provide free motor control software with application notes and schematics for most motor control algorithms to shorten your development cycle. Our development tools are specifically designed for motor control to promote rapid prototyping of custom applications. We offer technical training classes, web seminars to quickly familiarize engineers with our devices and the latest motor control algorithms. http://www.microchip.com/motor
- MPLAB® Code Configurator
- MPLAB Extensions for VS Code
- MPLAB® Harmony
- MPLAB Harmony V3
- MPLAB® Integrated Programming Environment (IPE)
- MPLAB® X IDE
- MPLAB® X IDE Advanced Debugging
- MPLAB® XC Compiler
- MPLAB® Xpress IDE
- MPU32
- mTouch™ Adding a modern, intuitive user interface to your design improves its ease-of-use, functionality and aesthetics.
- Netlist Viewer in Libero® SoC
- Other Devices
- PCIe QuickLearn
- Photodiodes: Microchip's Solution for Light Sensing Applications
- PIC32 CK
- PIC32 CM
- PIC32 CX
- PIC32 CZ
- PIC32 MK
- PIC32 MM
- PIC32 MX
- PIC32 MZ
- PIC32CK
- PIC32CM
- PIC32CX
- PIC32MK
- PIC32MX
- PIC32Z
- PICkit™ 4
- Place and Route in Libero® SoC
- PolarFire® FPGA
- PolarFire® SoC
- PolarFire® SoC | Adding Packages to Buildroot This playlist covers how to run a Buildroot build from the PolarFire® SoC GitHub organization, how to program an Icicle Kit with the built Linux image and how to update the Buildroot configuration to add additional packages and re-program the kit.
- PolarFire® SoC | Adding Packages to Yocto In this playlist we will run a standard Yocto build and program it to the board. We will then update the build to include the Joe text editor and re-build, program and test.
- PolarFire® SoC | Bare Metal Application(s) - Accessing the Fabric In this playlist you will learn how to build a bare metal application that will access the FPGA fabric on PolarFire® SoC and store it as a payload in the eMMC to be booted by the HSS.
- PolarFire® SoC | Bare Metal Application(s) from the DDR In this playlist you will learn how to build a bare metal application and store it as a payload in the eMMC. The application will use DDR as its execution memory.
- PolarFire® SoC | Bare Metal Application(s) from the LIM In this playlist you will learn how to build a bare metal application that will target the LIM as its execution memory.
- PolarFire® SoC | Bare Metal Example Customization In this playlist you will learn how to customize a bare metal application targeting the PolarFire® SoC Icicle Kit. This example uses the RTC time bare metal example, updates the MSS clock frequency, shows the updated clock frequency being identified and used by the bare metal example.
- PolarFire® SoC | Bare Metal Interrupts In this playlist you will learn about the available interrupts on PolarFire® SoC and how to use them in a bare metal application.
- PolarFire® SoC | Building a Linux Yocto Image and Controlling the MSS GPIOs In this playlist you will learn how to generate a custom Yocto Build including development tools for PolarFire® SoC Icicle Kit, and use it to control GPIOs and LEDs.
- PolarFire® SoC | Customising the Hart Software Services (HSS)
- PolarFire® SoC | Debugging a Bare Metal Application In this playlist you will learn how to run a bare metal application in debug mode on the PolarFire® SoC Icicle Kit using an example UART project.
- PolarFire® SoC | Debugging PolarFire SoC This playlist contains standalone videos demonstrating some of the different debug tools available for use with PolarFire® SoC.
- PolarFire® SoC | Generating a Design for the PolarFire SoC Icicle Kit and Adding Custom IP In this playlist you will learn how to generate a Libero® SoC reference design for the PolarFire® SoC Icicle Kit and add custom IP into the design. The example IP in this example uses an APB interface and is based on the SDIO register included in the Icicle Kit Reference Design.
- PolarFire® SoC | GPIOs/UIO Drivers and Yocto SDK In this playlist we will cover some more advanced topics about Yocto and we will see how to properly control MSS GPIOs and Fabric LSRAM with Linux drivers. We will also show how to effectively move data to the board using both Serial Port and Ethernet cable along with some methods to compile and cross compile applications.
- PolarFire® SoC | Linux: Connecting a PCIe End Point In this playlist you will learn how connect a PCIe end point to Linux. The end point used in this playlist is an NVMe drive which will be connected, enumerated, formatted, mounted and have a test file saved to it.
- PostSynthesis Simulation in Libero® SoC
- Power & Interface Microchip's integrated analog technology, peripherals and features are engineered to meet today's demanding design requirements. Our broad spectrum of analog products addresses thermal management, power management, battery management, mixed-signal, linear, interface and safety & security solutions. Our broad portfolio of stand-alone analog and interface devices offers highly integrated solutions that combine various analog functions in space-saving packages and support a variety of bus interfaces. Many of these devices support functionality that enhances the analog features currently available on PIC® microcontrollers. For more information visit: www.microchip.com/analog
- Power over Ethernet (PoE)
- Product Family Overview
- Program Design in Libero® SoC
- SAM C2X
- SAM D2X
- SAM E5X D5X
- SAM E70 V70 V71
- SAM LX
- Security
- SmartHLS
- Synthesis in Libero® SoC
- Technical Support Videos
- USB A collection of videos related to Microchip's USB Solutions. Learn more at http://www.microchip.com/usb
- VectorBlox™ in Libero® SoC
- Visual Debugging with the MPLAB® Data Visualizer
- Welcome To The Lab - Series Product demonstrations, overviews and reference designs in a maker-style lab studio.
- What Is...? Memory Technology Video Series
- Wi-Fi Series For Wi-Fi devices such as WINC1500, WINC3400, PIC32MZW1, WFI32, and others
- Wireless SAM Series For Wireless Sam devices such as SAMR21, SAMR30, SAMR34, WLR089, and others.
- Wireless Solutions Microchip provides cost effective, easy to implement wireless solutions including transmitter, receiver and transceiver solutions for IEEE 802.15.4/ZigBee®, ISM Band Sub-GHz, and IEEE 802.11 applications.
- World Maker Faire 2014
- World Maker Faire 2015