|
You are here |
electronut.in | ||
| | | | |
peterbraden.co.uk
|
|
| | | | | [AI summary] The author details the process of building an ESP32-based air sensor that measures temperature and humidity, sends data via MQTT to a home server for visualization in Home Assistant, and discusses challenges faced during development. | |
| | | | |
alexanderell.is
|
|
| | | | | [AI summary] The author walks through building an Arduino-based temperature monitoring project using a TMP36 sensor and LEDs to indicate temperature thresholds. | |
| | | | |
yasoob.me
|
|
| | | | | Hi lovely people! If you have read any of my other articles you might be aware that I am working with electronics right now. After learning the basics of Arduino, I decided to work on a relatively ambitious project. I decided to make a greenhouse monitoring system. I am going to write a series of posts introducing you to all of the sensors one by one and by the end of this series, we will have a fully functional, super basic, greenhouse monitoring system. | |
| | | | |
tomscii.sig7.se
|
|
| | | [AI summary] This is a detailed account of the development and construction of a DCF77-controlled clock with additional features like temperature and humidity sensing. The author describes the design process, hardware components, and software implementation, including the use of a simulator for development. The project includes a bill of materials, cost analysis, and future improvements. The source code and hardware design are shared under an open license. | ||