Based Automatic Cooling Fan Control Using ThingSpeak and Arduino Circuit Diagram You can use it to make some interactive works, such as voice-operated switches. 4.Read the Analog Value of the Sound Sensor We first use a simple code to read the analog value of the sound sensor and print it to the serial monitor, please refer to the following wiring diagram for the wiring. Control home appliances and fan speed with voice commands and Amazon Alexa App. Control ceiling fan speed and appliances with Bluetooth, IR Remote, & selector switch. Monitor real-time feedback in the Amazon Alexa App; Control appliances, and fan speed without WiFi using Bluetooth App, IR Remote, & switches. No third-party IoT applications are
Set up voice triggers and the Blynk API Webhook to control the fan and light. Voice Control: Once the integration is complete, simply use voice commands with Google Assistant to activate or deactivate the fan and light, enhancing the accessibility and ease of use of your IoT solution. This IoT based voice-controlled home automation project, allows you to interface 2/4/8 channel relay with NodeMCU ESP8266 and control different Appliances like Lights, Fan, AC cooler, Pump, etc.We will use an Android app having Several ON/OFF Buttons and voice-controlled system to send a signal to NodeMCU in order to control relay output. We will assign an IP address to NodeMCU and assign the
Light and Fan Control with Voice Circuit Diagram
Well, IoT is trending everywhere and is one of the greatest things that can be used to make life easier. There are many IoT based home automation projects available on the internet but none of them provides you an option to control the speed of fan over the internet. So here, in this project, we'll be making an IoT fan speed control circuit to control the speed of a regular fan or other This Blynk ESP32 control smart relay has the following features: Control home appliances with WiFi (Blynk IoT App). Control ceiling fan speed with Blynk, IR Remote, & selector switch. Control home appliances with an IR remote. Control home appliances with manual switches or push buttons. Monitor real-time room temperature in the Blynk IoT App
Simultaneously, a Python Voice Control Module listens for voice commands, and Node-RED integrates voice commands into the ESP32 system, presenting an IoT dashboard for monitoring. Prototype The prototype involves wiring lights and DC motors (acting as fans) for two rooms, utilizing a motor driver to control fan speed. Bluetooth Communication: To transmit and receive data wirelessly. Microcontroller (e.g., Arduino): To process commands and control devices. Relay Modules: To control high-power appliances like lights and fans. Real-time Feedback: Data is displayed on a screen, allowing you to monitor the system's status. What You'll Need. Before building your voice controller for lights, fan, and robot
Voice Controller for Lights, Fan, and Robot Circuit Diagram
Remote and Voice Controlled Smart Fan. I use a fan for white noise while sleeping, but sometimes forget to turn it on before getting into bed. This will fix that. There are six parts to this project: the IoT fan, the mobile app for controlling the fan, the Google Assistant API, Google Actions, a Firebase backend for managing state data and
