The post presents a cheap cellphone remote controlled water pump circuit which allows farmers (user) to switch ON their field water pump without practically visiting the spot, thus saving precious time and energy for the individual. The idea was requested by one of the dedicated members of this blog.
Inexpensive Cellphone Water Pump Starter
This is with reference to the comment of Mr. Raj Mukherji, January 16, 2013. He explained it very well. In addition, farmer suffered from infrequent power cut (6 hrs power supply in aprox. 10 irregular blocks) so it is very irritating for a person.
I want to apply this type of circuit for three phase induction motor in my village and it will be made for my village also. I humbly request you to develop the circuit for the welfare of our poor villagers. They are not able to purchase it from market.
I will be grateful to you.
The Design
To make this simple cell phone controlled water pump starter circuit for the farmers, you will require the following ingredients:
1) A cheap cell phone (such as a NOKIA1280) which has an "assign tone" facility, meaning a cellphone which can save a specific ringtone for a selected number and enable muting the remaining numbers, in simple words the cellphone will "ring" only to the selected (preferred) number and stay silent for other numbers regardless whether or not its from the phonebook or a wrong number.
The above unit will be used as the modem and will remain permanently attached with the control circuit.
2) A sound activated circuit such as a typical clap switch circuit
and a 3) monostable 555 timer circuit.
UPDATE:
Looking for an advanced solution? Read more below:
Advanced Microprocessor Based GSM Water Pump Controller
I have explained how this interesting cellphone controlled water pump circuit can be implemented for the farmers, as described below:
In a few of my earlier posts I have comprehensively explained regarding how any load across any part of the world can be actuated using a cheap cellphone remote control circuit, you can learn more about these from the following links:
Cellphone Display Light Triggered Remote Control Circuit
Vibrating Cell Phone Remote Control Circuit
Controlling Motor with a Cell Phone - Circuit Diagram Explained
Making a Cell Phone Controlled Remote Bell Circuit
Cell Phone Controlled Door Lock Circuit
Build a Homemade GSM Car Security System
In the above designs the relay is seen to be activated using the attached modem cell phone's ringtone through its headphone socket.
Using a MIC Sensor
In the present pump controller design we implement the same but through a mic sensor which is utilized to sense the ringtone of the modem without making any physical contact with the modem cell phone.
The idea can be understood from the following diagram and the explanations:
The lower section of the circuit incorporating the IC 741 and the IC 4017 forms a simple sound activated relay circuit, which toggles the connected relay alternately ON and OFF in response to the sound signals received on the MIC. Basically this circuit is used in clap switch circuits for toggling the relay with clap sounds.
For the proposed application the sound is produced from the cellphone when the user calls the shown attached cellphone from his home or some distant location for operating the relay and the water pump.
The idea looks pretty simple until here, however the mic could be triggered even with a false sound trigger generated externally in the filed, for example by an airplane sound flying close by or a vehicle such as a tractor engine sound etc.
Using Monostable Circuit
To eliminate this issue and make the circuit foolproof, a IC 555 monostable is additionally used with the lower section.
The monostable is designed to trigger from the display light of the cellphone whenever a call is received.
Therefore now it becomes a double edged sensing device which will not trigger unless the light from the modem, as well as the ringtone sound are produced together.
Whenever a call is made on the modem. The display lights up first and hits the LDR, the LDR resistance goes low triggering the BC547. The BC547 conducts and pulls the pin#2 of the 555 IC low which in turn enables its pin#3 to go high.
The pin#3 output from the IC 555 powers the lower section, which now becomes ready for the subsequent sound detection.
Following the display illumination, the ringtone from the modem sounds, and triggers the relay and switches ON the connected water pump.
The monostable timer remains switched ON for a stipulated length of time, determined by the IC 555's R and C component values, after which its pin#3 goes low deactivating the entire circuit and the pump motor.
However in the meantime if the user wants to switch OFF the pump he can do so by calling the modem for the second time within the time frame of the monostable activation.
Although the discussed cellphone operated water pump circuit for aiding poor farmers looks very simple, foolproof and cheap, it has its own drawbacks.
The farmer is never able to know whether the pump was actually started or not, because there's no reverse acknowledgement from the modem to the user regarding this.
The above issue can be though rectified by adding a momentarily activated siren, which will produce a loud ear piercing sound as soon as the pump is initiated or the water flow is detected.
The siren sound should be loud enough to be heard over a radial distance of approximately a kilometer. This acknowledgement method will work only if the farmer's home is within the above mentioned distance from the pump motor.
Advantages
The advantages of the above design are:
The above circuit will not consume your modem's talk time unlike the DTMF based systems which eats-up the cell phone talktime while it's in use for the required function.
The circuit does not utilize complex parts or obsolete parts rather works with ordinary parts such as IC 741, IC 555, IC 4017.
The circuit does not interfrere with the modem in any manner rather works without making any physical contact with the associated modem.
The circuit is cheap and well suited for the proposed application and for the poor farmers.
Comments
thanks sir
hello for the case of dc motor how about the connection will be
connect the pole of the relay, the N/O contact of the relay, motor wires and the DC supply, connect all these in series
(+)_________motor______/o________(-)
Sir what about TCA 785 work as cd 4017or 4022
Yohana, I am not sure about the TCA785 functioning…it looks different to 4017.
you can try 4013 as an effective flip flop stage in the above circuit
thank you sir
sir there is another way to change another device which will work the same as CD 4017?.
you an use IC 4022
thanks sir i get it.
Is it the circuit will work the same as before the timer was there or it will work differently?,goodnight sir
you wanted to switch it OFF using a cellphone call so it will now wait for this command and will not switch OFF automatically
Also i want to know what software is suitable to run the simulation of the circuit above here i have circuit maker but it is hard to use it.
sorry, I never use softwares so can't suggest about them
Thanks sir but i mean the positive 9V to the circuit above and the relay they all need transformer for each ?
the selected 6V, 9V or 12V is a common supply for the entire circuit, and can be acquired from any suitable source
then for the solar supply i mean DC is suitable for 6V relay ?
yes 6V supply will also work if the relay is 6V
hello sir there is 9V to the circuit above so what type of transformer i will use for case of AC supply and what relay is suitable for AC supply.
hello yohana, if your relay is 12V then you can use a 0-12V transformer, and if it's a 9V relay then a 0-9V transformer will do.
thanks sir you really working hard and iam very interested in projects
you are welcome yohana
thanks sir i really need your support,so can you plz help for the modifiation of the circuit after removing the LDR and IC 555 timer if possible you can send it to my email johnsircha@gmail.com,have a nice day
thanks Yohana it's not difficult, just remove the IC555 section completely along with the LDR.
after this connect the supply rail (pin14) of the IC 4017 with the supply input (+)…which can be seen connected with the relay coil and the 7805 IC
….I am sorry….it's NOT pin14, but pin#16 rail of the IC 4017 that should be connected with the supply input (+)
so if i want the pump to be switched off after one hour then what value of R and C is suitable for it.
1 hour is too long, I don't think the IC 555 will be able to apply such long durations accurately
the circuit explain to energize the pump for single call and de-energize it after the second call is what i need for the system to do so, then the value of R and C should be how many duration is proper for it open and close the pump?
for that you can simply eliminate the entire LDR and 555 IC section….and connect the supply with the pin14 of the IC 4017
ok thanks sir i need your help for how long it will be better for it to operate and how can i simulate the circuit?
sorry, I have no idea about it…
Sir how can i make the simulation of the circuit above? your help plz
hello sir what is the value of R and C conneected to LM555
hello yohana,
you can use the following software for calculating it
https://www.homemade-circuits.com/p/ic-555-calculator.html
R and C decides for how many seconds the pump would remain switched ON
hello sir what if i will insert the probe into the soil so as to sitch off the pump motor after the water is enough into the soil or there is another alternative method so as switch it off after the soil get it enough water
Hello Yohana, I already have a similar circuit in this website, you can find it here:
https://www.homemade-circuits.com/2014/03/simple-automatic-plant-watering-circuit.html
Thanks sir
thanks sir,and what if i want to use ac single phase motor to drive the pump for the circuit above ,how can i connect it sir plz i need to know.Have a good day
Sir Is There any another method to know On/Off condition ??
connect the pole of the relay with one of the mains wire.
connect the N/O with one of the wires of the motor.
finally connect the other wire of the motor with the other mains wire.
sir can you provide the block diagram for the above circuit!.Thanks
if time permits I'll upadte it…
Thanks sir
Hello sir the phone is only connected to charger no other connection to the phone plz
Hello Yohana, yes only with charger pin and nothing else.
sir swagatam !!!
I am about to make this circuit for my final year Project but there is one problem which i have to solve …
Electric tube-well runs on 220v AC
If Voltages of Tube-well motor are low then motor might burn out. Can we make a circuit that will will fulfill the deficiency of voltages (like step up transformer).
I thought of "stablizer circuit" but i was told that tube-well motor is of almost 25 Horse powers which can't be run by this circuit…means i can't make up deficiency of voltages at Tube-well Motor …
Please suggest me a solution…..Thankx
Hi Asif,
for a tubewell motor you might need a stabilizer with a huge transformer, in the order of around 10000 watts or even more, but it's feasible…
there are a few stabilizer circuits posted in this blog, you can use the search box at the top for searching the suitable one for your application.
Dear Swagatam,
One important thing is that whether it is suitable for three phase motors, if yes then how could we know that in all three pahses supply is coming and whenever supply comes it will call to cell phone?
dear ramkesh,
for 3 phase motor you will need to connect 3 relays in parallel or a single TPTT relay…sorry there's no call revert facility…