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* 1-Master, Multi Slave * Master-Slave Firmware * Events and polling rate timing rate Analysis * Live Demo: Implement Modbus Master-Slave on STM32 ARM Cortex-M4
This project enables remote control and real-time monitoring of home lighting using the MQTT protocol and a mobile app. It leverages MQTT features such as publish/subscribe communication, QoS for reliability, retained messages for state tracking, and Last Will and Testament (LWT) for device status monitoring. The system uses ESP32 microcontrollers for Wi-Fi-based control, offering an […]
This project enables remote control and real-time monitoring of home lighting using the MQTT protocol and a mobile app. It leverages MQTT features such as publish/subscribe communication, QoS for reliability, retained messages for state tracking, and Last Will and Testament (LWT) for device status monitoring. The system uses ESP32 microcontrollers for Wi-Fi-based control, offering an […]
This project enables remote control and real-time monitoring of home lighting using the MQTT protocol and a mobile app. It leverages MQTT features such as publish/subscribe communication, QoS for reliability, retained messages for state tracking, and Last Will and Testament (LWT) for device status monitoring. The system uses ESP32 microcontrollers for Wi-Fi-based control, offering an […]
This project enables remote control and real-time monitoring of home lighting using the MQTT protocol and a mobile app. It leverages MQTT features such as publish/subscribe communication, QoS for reliability, retained messages for state tracking, and Last Will and Testament (LWT) for device status monitoring. The system uses ESP32 microcontrollers for Wi-Fi-based control, offering an […]
Learn how to design reliable power systems for COM-HPC carrier boards. We’ll explore power architecture choices, input protection, sequencing, PCB layout tips, and testing methods—equipping you to avoid common pitfalls and build efficient, stable systems.
Learn how to design reliable power systems for COM-HPC carrier boards. We’ll explore power architecture choices, input protection, sequencing, PCB layout tips, and testing methods—equipping you to avoid common pitfalls and build efficient, stable systems.
Learn how to design reliable power systems for COM-HPC carrier boards. We’ll explore power architecture choices, input protection, sequencing, PCB layout tips, and testing methods—equipping you to avoid common pitfalls and build efficient, stable systems.
Learn how to design reliable power systems for COM-HPC carrier boards. We’ll explore power architecture choices, input protection, sequencing, PCB layout tips, and testing methods—equipping you to avoid common pitfalls and build efficient, stable systems.
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