Content Search

Your Resource for the Latest in Electronics Industry News!
CN0552 Setup Demo with ADICUP3029

In this video we will walk-through the setup instructions for using the CN0552 with the EVAL-ADICUP3029. We'll review the hardware setup as well as the software requirements needed to run the demo in IIO-Oscilloscope and in Python.

FPGA Remote Laboratory

Remotely access FPGA devices from the LabsLand network. Not a simulation. No hardware required.

Arduino Remote Laboratory

Remotely access Arduino devices from the LabsLand network. Not a simulation. No hardware required.

ISO 26262 Automotive Fuctional Safety Read dsPIC33C DSCs

Designing safe and reliable automotive applications to ensure customer safety is critical. To meet these rigorous safety requirements, we offer a broad portfolio of functional safety ready dsPIC33 Digital Signal Controllers (DSCs).

Accelerate Debugging with Renesas RA Family of Arm® Cortex®-M based MCUs Kits

Accelerate IoT and embedded systems development using the versatile debugging capabilities of the Renesas Advanced MCU Kits. Familiarize yourself with the debugging modes and interfaces to speed up innovation and save expenses.

5 steps to get started with Renesas RA Family of Arm® Cortex®-M based MCUs Kits

Take the guesswork out of your innovation experience by following a systematic and methodical approach to start developing with Renesas Advanced microcontrollers kits. It allows for a structured and orderly exploration of resources.

Flash Programming Renesas RA Family of Arm® Cortex®-M based MCUs

Quickly and easily program Renesas Advanced microcontroller kits using popular flash programming utilities to explore the functionality offered by more than 600 example projects.

Getting Started with Renesas RA2 600MHz Family of Arm® Cortex®-M based MCUs Kits

Kickstart IoT and embedded systems development using Renesas EK-RA2E1 and EK-RA2L1, Evaluation Kits for RA2E1 and RA2L1 MCU Groups. Familiarize yourself with the kit architecture, key features, quick start example project and many useful resources.

Getting Started with Renesas RA4 100MHz Family of Arm® Cortex®-M based MCUs Kits

Kickstart IoT and embedded systems development using Renesas EK-RA4M2 and EK-RA4M3, Evaluation Kits for RA4M2 and RA4M3 MCU Groups. Familiarize yourself with the kit architecture, key features, quick start example project, and many useful resources.

Getting Started with Renesas RA6 240MHz Family of Arm® Cortex®-M based MCUs Kits

Kickstart IoT and embedded systems development using Renesas EK-RA6M5, EK-RA6M4, and EK-RA6M3 Evaluation Kits for RA6 MCU Series.

Getting Started with the Renesas EK-RA6M4 Evaluation Kit

Kickstart IoT and embedded systems development using Renesas EK-RA6M4, Evaluation Kit for RA6M4 MCU Group. Familiarize yourself with the kit architecture, key features, quick start example project and many useful resources.

Getting Started with the Renesas EK-RA6M3 Evaluation Kit

Kickstart IoT and embedded systems development using Renesas EK-RA6M3, Evaluation Kit for RA6M3 MCU Group. Familiarize yourself with the kit architecture, key features, quick start example project and many useful resources.

Driving Innovation of Industrial IoT

All of the IoT Capabilities for the Advantech Product Line.

Advantech Corporation 2021

Overview of Advantech Corporation

EOS S3 Introduction

Featuring the industry’s first Arm® Cortex®-M4 MCU + eFPGA SoC with 100% open source tools.

OXY5741 SBC

Featuring Intel’s Xeon E-2276ME and ruggedized open-standard EBX architecture.

Session 2 - AI at the Edge A Practical Introduction to Maxim Integrated’s MAX78000 AI Accelerator

A walk through of taking a trained model and getting it to run on the MAX78000. This will include the synthesis step required to convert the model to a form that can execute on the MAX78000, and the handoff to an embedded development.

Error Correcting Code Memories

Functionality of ECC memory being put to the test on the MAX32670.

MAX78000 with AIZip Visual Wake Word model

AIZip introduces their low energy, accurate Visual Wake Word model, capable of detecting the presence of a person in the image in just milliseconds.

SMI Graphics Display SoC

SMI graphics display SoC provides an improved combination of better graphics capability, low latency, efficient data processing and low-power consumption. And is a more cost effective solution for USB display and embedded applications.