How to design a modular overlay network to connect legacy devices and islands of automation to support Industry 4.0 data processing optimization in the IIoT.
Quickly explore and get started with motion detection using the Microchip ATtiny1627 Curiosity Nano and PIR sensors.
Vision-centric hardware and software simplify development of adaptable smart vision applications.
FPGAs can be used to augment legacy microcontrollers and application processors in automobiles to enhance connectivity, processing performance, and security.
Use the platform and projects from the InnovateFPGA Design Contest 2021-22 as inspiration for how to connect the edge toward a sustainable future.
Using a platform of specialized devices and boards, designers can quickly and efficiently develop and implement highly flexible EV charging stations.
Developers can use a family of digital signal controllers to rapidly implement more effective designs for automotive and e-mobility systems.
Designers can quickly implement occupancy monitoring using a drop-in kit based on a proprietary algorithm running on a low-power digital signal processor.
How sophisticated ICs can be used to simplify control of BLDC motors by including the required digital and analog functions for efficient and precise control.
Get BLDC motor applications up and running quickly and efficiently using the A4964KJPTR-T dedicated motor driver IC.
Use Digi’s LoRaWAN Starter Kit with its own prototyping board to develop application code and quickly connect sensors and actuators to the cloud.
How to quickly and simply prototype IoT connected devices using the B-L4S5I-IOT01A Discovery IoT Node from STMicroelectronics.
Use multi-constellation GNSS receivers in position-based applications to provide better availability of PNT signals to increase accuracy and reliability.
How to simplify the execution of IoT OTA firmware updates on Espressif Systems’ ESP32 microcontroller and associated modules and ESP-IDF.
The Kintex® UltraScale+™ family is considered to be the best price/performance/watt balance FPGA device.
How to apply an extensible development kit and software ecosystem to dramatically simplify rapid prototyping of battery- powered Bluetooth IoT designs.
The combination of a microcontroller unit (MCU) and field programmable gate array (FPGA), offers the flexibility to address both known and unknown challenges.
Use Microchip Technology’s EV15R70A kit to quickly and securely connect Wi-Fi enabled IoT nodes to AWS for control, monitoring and data analysis.
PLCs receive data from sensors and input devices, process the data to make logic-based decisions, and output control instructions.
Modeling communication structures and identifying the right protocol for a particular application can be daunting.