This document outlines how to create a temperature and humidity monitoring system using an ESP8266, DHT11 sensor, and Arduino Cloud Monitoring. The system measures environmental data and sends it to the Arduino IoT Cloud, allowing real-time monitoring from a web dashboard or mobile app. Components Required ESP8266 (e.g., NodeMCU or Wemos D1 Mini) DHT11 Temperature… Continue reading Temperature and Humidity Monitoring System using ESP8266 and DHT11 with Arduino Cloud Monitoring
Category: Industrial Automation
Arduino Cloud Monitoring
Arduino Cloud Monitoring is a platform that allows users to collect, process, and visualize data from Arduino-compatible devices in real time. It is part of the Arduino IoT Cloud, providing an intuitive interface for creating connected applications. This service enables developers to monitor and control devices remotely, making it ideal for IoT applications such as… Continue reading Arduino Cloud Monitoring
Firebase
Firebase is a comprehensive platform developed by Google for building, deploying, and managing mobile and web applications. It provides a suite of tools and services to simplify app development, improve performance, and enhance user engagement. Key Features of Firebase 1. Realtime Database: A cloud-hosted NoSQL database. Stores and syncs data in real time across clients.… Continue reading Firebase
Calibrating your FDM 3D printer – Flow rate
Flow rate Calibrating the flow rate involves a two-step process. Steps Select the printer, filament, and process you would like to use for the test. Select Pass 1 in the Calibration menu A new project consisting of nine blocks will be created, each with a different flow rate modifier. Slice and print the project. Examine the blocks and determine… Continue reading Calibrating your FDM 3D printer – Flow rate
Calibrating your FDM 3D printer – Pressure Advance
Orca Slicer includes three approaches for calibrating the pressure advance value. Each method has its own advantages and disadvantages. It is important to note that each method has two versions: one for a direct drive extruder and one for a Bowden extruder. Make sure to select the appropriate version for your test. Warning For Marlin:… Continue reading Calibrating your FDM 3D printer – Pressure Advance
Input Shaping for 3D Printers: A Guide to Smoother Prints with Orca Slicer
In 3D printing, one of the common challenges is managing vibrations or “ringing” (also known as ghosting) that appear on the surface of printed objects. These artifacts are caused by the printer’s rapid directional changes, particularly when printing at high speeds. A game-changing solution to this problem is input shaping, a technique that mitigates vibrations… Continue reading Input Shaping for 3D Printers: A Guide to Smoother Prints with Orca Slicer
Remote XY: Simplifying IoT Interface Design
In the rapidly growing world of IoT, creating user-friendly interfaces for devices can often become a challenge, especially for beginners. RemoteXY steps in as a powerful yet simple solution for designing and deploying graphical user interfaces (GUIs) to control and monitor IoT devices. Whether you’re a hobbyist or a professional, RemoteXY streamlines the process, enabling… Continue reading Remote XY: Simplifying IoT Interface Design
Calibrating your FDM 3D printer – Estep calibration
Extruder Calibration for 3D Printers: Achieving Accurate Filament Flow Extruder calibration is one of the most crucial steps in 3D printer setup, as it ensures accurate filament feeding, which directly impacts print quality and material usage. The process involves adjusting the extruder’s E-steps (steps per millimeter) and flow rate settings to deliver consistent filament extrusion.… Continue reading Calibrating your FDM 3D printer – Estep calibration
Calibrating your FDM 3D printer – PID Tuning
PID Tuning for 3D Printers: Achieving Temperature Stability In FDM 3D printing, maintaining a stable temperature is crucial for consistent print quality. PID tuning (Proportional-Integral-Derivative tuning) is a process that allows the printer’s firmware to control the temperature of the hotend and heated bed accurately. By fine-tuning PID settings, you can reduce temperature fluctuations, minimize… Continue reading Calibrating your FDM 3D printer – PID Tuning
Calibrating your FDM 3D printer – Maintenance
The frame of a 3D printer serves as the structural backbone, supporting all critical components and allowing them to function with precision. Frame stability directly affects print quality, accuracy, and the longevity of your printer. Understanding the importance of a well-maintained frame, and knowing the right maintenance practices, will help you achieve optimal print results… Continue reading Calibrating your FDM 3D printer – Maintenance