Membuat Hidroponik Online monitoring dan Kontrol Nutrisi Otomatis dari Aplikasi Android Mudah
Summary
TLDRIn this video, the creator showcases a successful hydroponic setup that has been growing plants for about a month using an automated system. The system monitors and controls pH, temperature, and nutrient levels via sensors, which send real-time data to a mobile app. The setup includes a peristaltic pump for nutrient distribution, with options for both manual and automatic control. The video guides viewers through the process of building the hydroponic system, installing sensors, and managing plant growth remotely, resulting in healthy, thriving plants after 30 days.
Takeaways
- 🌱 The speaker showcases the growth of hydroponic plants over one month using an automated system.
- 📱 The system allows users to monitor plant conditions remotely through a mobile app.
- 🌡️ Sensors for pH, TDS, and temperature are used to automatically adjust nutrient levels.
- 💧 Nutrient levels are checked and filled twice daily according to predefined schedules.
- 🔧 The system uses peristaltic pumps to deliver nutrients when required based on sensor data.
- 🏡 The setup allows users to manage plant nutrition even when away from home.
- 📊 The mobile app provides real-time data from sensors, allowing users to monitor and control the system manually or automatically.
- 🛠️ The hydroponic setup is built with a lightweight metal frame, pipes, and customized components for water flow and nutrient delivery.
- 🔋 The control panel integrates multiple sensors and connects to the internet, displaying real-time data on an LCD screen.
- 🌿 The system proved effective, growing healthy plants in a month with minimal intervention required from the user.
Q & A
What is the main focus of the video?
-The main focus of the video is on demonstrating how to build an automated hydroponic system, from the initial setup to the growth of plants, while using sensors and mobile phone integration to monitor the system.
How long does it take for the plants to grow using this automated system?
-According to the video, the plants took approximately 30 days to grow using the automated hydroponic system.
What sensors are used in the hydroponic system?
-The hydroponic system uses several sensors, including a pH sensor, TDS (total dissolved solids) sensor, temperature sensor, and humidity sensor.
How does the system manage nutrient levels for the plants?
-The system automatically checks and adjusts the nutrient levels twice a day. If the TDS level drops below a preset threshold (4.5), it triggers a peristaltic pump to add nutrients.
What role does the mobile phone play in this system?
-The mobile phone, connected via the internet, allows the user to monitor sensor data (pH, TDS, temperature) and control the system remotely, either manually or automatically.
What components are required to build the body of the hydroponic system?
-The body of the hydroponic system is made using lightweight metal (baja ringan) and a gully for hydroponic plants. The structure is designed with five rods, each with five holes for net pots, totaling 25 plant spaces.
How does the system handle nutrient distribution?
-Nutrients are distributed using a peristaltic pump, which draws nutrients from a bottle and pumps them into the hydroponic water reservoir when needed.
What does the LCD display show on the control panel?
-The LCD display on the control panel shows the readings from various sensors, including the pH level, TDS level, temperature, and humidity.
How does the user set up the timing for nutrient addition?
-The user can set up a schedule for nutrient addition, with specific times, such as 08:50 and 16:30. Nutrients will only be added if the TDS value falls below the specified threshold.
What happens if the user travels or is not physically present to monitor the system?
-The system is designed to be remotely monitored and controlled via a mobile app. Even if the user is away, they can check the plant’s conditions and adjust nutrient levels as needed, ensuring the plants receive the necessary care.
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