research:automated_irrigation_system

Differences

This shows you the differences between two versions of the page.

Link to this comparison view

Both sides previous revision Previous revision
Next revision
Previous revision
research:automated_irrigation_system [2019/07/15 12:31] aimeejuliaresearch:automated_irrigation_system [2019/07/23 20:29] (current) aimeejulia
Line 1: Line 1:
-====== Automated irrigation system ======+====== Automated garden irrigation system ======
  
 ===== Equipment needed ===== ===== Equipment needed =====
  
-  * [[Soil moisture sensors]] - the number of sensors needed depends on the areas to be covered for example in a small to medium size greenhouse one sensor should be sufficient, in larger areas such as in the garden which are dried in some areas and wetter in others you will need to use more sensors.+  * Arduino Nano (or any kind of Arduino)   
 +  * light sensitive resistor 2kΩ 6kΩ 
 +  * resistor 2kΩ 
 +  * relay/s 
 +  * valve/s 12V 
 +  * power supply 12V
  
  
-===== Step 1: Connect the Soil Humidity Sensor to the Arduino =====+===== Code, License and list of Contributors =====
  
-===== Step 2Create a log system for temperature readings from the Soil Moisture Sensors =====+The code, license and list of contributors are saved on the [[https://gitlab.com/ecohackerfarm/youngcodersummercamp/automated-garden-irrigation-system|gitlab project]].
  
-===== Step 3Observe current readings from the Greenhouse and the Garden (desired watering areas) ===== +{{:research:breadboard.jpg?200|}} 
- +{{:research:arduino.jpg?200|}} 
-At this stage you should take notes about the readings and what the soil looks like, for example at a reading of 100 the top soil is wet but only the top soil - the first 2 to 3 inches.+{{:research:twelwevoltpowersupply.jpg?200|}} 
 +{{:research:valve.jpg?200|}}
  
 +{{:research:schematic.png?600|}}
  
  
  • research/automated_irrigation_system.1563186671.txt.gz
  • Last modified: 2019/07/15 12:31
  • by aimeejulia