The benefit of Arduino is to use a function that prevents electricity from reaching the soil moisture sensor, thereby increasing its lifespan. The sensor mentioned above is widely used, but it has a significant drawback. It is a resistive soil moisture sensor, and it suffers from electrolysis. When a constant current flows through the sensor while it is in contact with wet soil, it causes the thin layer on the sensor's PCB to undergo electrolytic breakdown. In other words, the metal on the sensor will eventually be deposited into the soil rather than remaining on the sensor itself.
While you are correct, it seems a shame to throw what is in essence a micro computer at a simple problem like this. I wonder if the sensor's prongs could not be replaced by simple diy pieces of soldered wire, which would be extremely cheap and easy to make and use.
@@md.sakibhasan9904 you may have the potentiometer on the sensor set wrong you need to calibrate it to how wet or how dry it needs to be indicated by one light or 2 lights
![Seungmin "그렇게, 천천히, 우리(As we are)" | [Stray Kids : SKZ-PLAYER]](http://i.ytimg.com/vi/kAzmhLHePqU/mqdefault.jpg)
The benefit of Arduino is to use a function that prevents electricity from reaching the soil moisture sensor, thereby increasing its lifespan. The sensor mentioned above is widely used, but it has a significant drawback. It is a resistive soil moisture sensor, and it suffers from electrolysis. When a constant current flows through the sensor while it is in contact with wet soil, it causes the thin layer on the sensor's PCB to undergo electrolytic breakdown. In other words, the metal on the sensor will eventually be deposited into the soil rather than remaining on the sensor itself.
While you are correct, it seems a shame to throw what is in essence a micro computer at a simple problem like this. I wonder if the sensor's prongs could not be replaced by simple diy pieces of soldered wire, which would be extremely cheap and easy to make and use.
This actually work thankyou so much
Why did you but the battery
The power supply for breadboard is not fitting to my 840 points solderless breadboard. What should i do?
it is unnecessary, you can just provide 5V to the wires he mentioned, other methods can be used to do so.
It’s working ❤thank u
Nice video. Would this work using a capacitive soil moisture sensor?
Can the soil moisture sensor work with 9 volt battery also
Yes
Wow sir incredible😦
Can we connect in same power supply for pump and etc
yes
Total cost how much brother
This is great to grow cannabis far away
Do you have PPT for this
Can you please send the components name
1 - YL-69 Soil Hygrometer Humidity & Soil Moisture Detection Sensor
2 - 1 Channel 5V Relay Board Module
3- 5v Dc water pump
4- Breadboard Power Supply Module 3.3V 5V
Please tell the names of the product
In the description
could we see the code please ?
there isnt any
@@rishigolani1177 and how does this work?
@@jimmak1 there is no place to put the code it works through electronic components like
How old things worked before processors
@@HogwartsBasement ok
Can you provide code
Bro can you provide me it's coding please
Jai Shri ram 🚩🚩🚩🚩🚩
This is not working why?
Everything is working but when the soil sensor get into the water the water pump can't stop.
@@md.sakibhasan9904 you may have the potentiometer on the sensor set wrong you need to calibrate it to how wet or how dry it needs to be indicated by one light or 2 lights
Also are you using AO or DO pin on the moisture sensor
Same here pls tell the solution
@@HogwartsBasement where is the potentiometer located please help
you are so skibidi sigma