Hope you have enjoyed my project, Such projects will not only help you gain technical knowledge but also it will enable you to think outside of the box, Like for example this project is about making smart bridge
This tutorial aims to provide a thorough understanding of the inner workings of the Arduino Uno, breaking down its printed circuit board (PCB) and components, and explaining how to replicate its functionality using just a few essential parts. By the end, you’ll have a clear grasp of each ...
A low-power, low-bandwidth mesh networking protocol that uses the 802.15.4 radio technology, Thread is similar to existing smart home protocols Zigbee and Z-Wave. But unlike them, it doesn’t need a central hub or bridge. Instead, Thread devices can talk directly to each other. By cutting...
Alternative firmware for ESP8266 and ESP32 based devices with easy configuration using webUI, OTA updates, automation using timers or rules, expandability and entirely local control over MQTT, HTTP, Serial or KNX. Full documentation at mqtt iot arduino esp8266 automation ota firmware esp32 smart-...
Enhance your Arduino projects with the L298N Motor Driver Controller Board, a versatile dual H bridge module for precise 4 wire stepper motor control and advanced electrical motor management.
Arduino project to make my normal fan into a smart Internet controlled fan - GitHub - BrianJ-4/FanControl: Arduino project to make my normal fan into a smart Internet controlled fan
The next step of the project is to use the data to trigger smart home devices. To control the devices, Adafruit IO is used, and tobridgethe two platforms, theIFTTTplatform was used. For the creation of the bridge, we need to create a new app...
Begin by stacking the Arduino Nano atop the RF shield. If the USB connector is facing left on the top side, the wireless PCB should be facing right on the bottom side. Now, plug the Arduino Nano into your computer using a USB cable and upload the sketch I have included in the zip fi...
physical component. The system hardware was built using the Arduino platform due to its robustness and cost efficiency. In addition, a reliable connection is vital in digital twin applications, however, the authors chose to implement the design using a wireless network to avoid cable installation ...
CYW920736M2EVB-01: SWD hardware debugging requires fly-wire connections. The only option is using P14 for SWDCK and P15 for SWDIO. These route to Arduino header J2, A1 and A0. These can be fly-wired to Arduino header J4, D4 and D5. From there the signals connect to the KitProg3...