PlantWateringSystem An Automated Circuit Diagram This process requires careful calibration to avoid over- or under-watering the plants. In this project, you will build your own automatic irrigation system for an indoor plant, like the one in Figure 2. This way, you do not need to worry about waterproofing your circuit for outdoor use, although that is an optional variation of the project. Smart Plant Watering Project. Now let's build an automatic plant watering system that detects soil dryness and activates a pump to water the plant. Components required: Arduino UNO; Soil Moisture Sensor; 2 CH-Relay module; Water pump (5V or 12V) Jumper wires; Power supply/Battery; Tubing for Water Flow; Circuit diagram Relay Module: Controls the water pump based on sensor data. Water Pump: Supplies water to plants. Tubing and Drip Emitters: Delivers water to each plant. Water Reservoir: Stores water for the system. Power Supply: Powers the pump and ESP32. Blynk App (or similar): Mobile app for monitoring plant health and receiving alerts.
In this project, we will build an automatic plant watering system using a soil moisture sensor and Arduino. The soil moisture sensor will be used to measure the moisture level in the soil and the Arduino will be used to control the watering system. Required material. Arduino Nano* 1; Soil Moisture sensor * 1; 5v relay module * 1 Building an automatic plant watering system is becoming increasingly popular among gardening enthusiasts and IoT hobbyists. This DIY automatic plant watering system project helps solve the common problem of forgetting to water plants while away from home. In this complete guide, we'll show you how to make an automatic plant watering system with soil moisture sensing and mobile app control
Step Guide: Automating Watering System With Soil Moisture ... Circuit Diagram
Insert the soil moisture sensor probe into the soil while the system is operating. The moisture content will then be displayed on the LCD as Low, Medium, or High. The relay module will automatically activate when the moisture level is LOW and deactivate when it is MEDIUM or HIGH. Working of smart plant watering system: We are connecting a single MCU (Arduino, Node MCU, Wemos D1, ESP 32) to a Soil moisture sensor here we are using a capacitive sensor instead of resistance sensor because those sensors has DC current wiith two metallic electrodes printed on the silicon board which cause the electrolysis and the metals corrode by damaging the device permanently. Overwatering or underwatering can lead to stress, disease, or even plant death. Soil sensors help maintain optimal moisture levels, leading to healthier root systems and improved plant growth. 3. Cost Efficiency. Automating your watering system with soil sensors can lead to substantial cost savings in the long run.
