Water flow sensor consists of a plastic valve body, a water rotor, and a hall-effect sensor. When water flows through the rotor, rotor rolls. Its speed changes with different rate of flow. The hall-effect sensor outputs the corresponding pulse Signal.
Model:POW110D3B
http://www.seeedstudio.com/depot/images/large/product/flowsensor_LRG.jpg
| Mini. Wokring Voltage | DC 4.5V |
| Max. Working Current | 15mA(DC 5V) |
| Working Voltage | 5V~24V |
| Flow Rate Range | 1~30L/min |
| Load Capacity | ≤10mA(DC 5V) |
| Operating Temperature | ≤80℃ |
| Liquid Temperature | ≤120℃ |
| Operating Humidity | 35%~90%RH |
| Water Pressure | ≤2.0MPa |
| Storage Temperature | -25℃~+80℃ |
| Storage Humidity | 25%~95%RH |
Unit:mm
| No. | Name | Quantity | Material | Note |
|---|---|---|---|---|
| 1 | Valve body | 1 | PA66+33%glass fiber | |
| 2 | Stainless steel bead | 1 | Stainless steel SUS304 | |
| 3 | Axis | 1 | Stainless steel SUS304 | |
| 4 | Impeller | 1 | POM | |
| 5 | Ring magnet | 1 | Ferrite | |
| 6 | Middle ring | 1 | PA66+33%glass fiber | |
| 7 | O-seal ring | 1 | Rubber | |
| 8 | Electronic seal ring | 1 | Rubber | |
| 9 | Cover | 1 | PA66+33%glass fiber | |
| 10 | Screw | 4 | Stainless steel SUS304 | 3.0*11 |
| 11 | Cable | 1 | 1007 24AWG |
Note: This example is abstracted from the forum, which was done by Charles Gantt. Thanks for his contribution.Let's see how it works.
This is part of a project I have been working on and I thought I would share it here since there have been a few threads on how to read water flow rate in liters per hour using the Water Flow Sensor found in the Seeed Studio Depo. It uses a simple rotating wheel that pulses a hall effect sensor. By reading these pulses and implementing a little math, we can read the liquids flow rate accurate to within 3%. The threads are simple G3/4 so finding barbed ends will not be that hard.
You will need Seeeduino / Arduino ,Water Flow Sensor,10K resistor,a breadboard and some jumper wires.
Wiring up the Water Flow Sensor is pretty simple. There are 3 wires: Black, Red, and Yellow. Black to the Seeeduino's ground pin Red to Seeeduino's 5v pin The yellow wire will need to be connected to a 10k pull up resistor.and then to pin 2 on the Seeeduino.
Here is a fritzing diagram I made to show you how to wire it all up.
Once you have it wired up you will need to upload the following code to your Seeeduino. Once it is uploaded and you have some fluid flowing through the Water Flow Sensor, you can open the serial monitor and it will display the flow rate, refreshing every second.
// reading liquid flow rate using Seeeduino and Water Flow Sensor from Seeedstudio.com // Code adapted by Charles Gantt from PC Fan RPM code written by Crenn @thebestcasescenario.com // http:/themakersworkbench.com http://thebestcasescenario.com http://seeedstudio.com volatile int NbTopsFan; //measuring the rising edges of the signal int Calc; int hallsensor = 2; //The pin location of the sensor void rpm () //This is the function that the interupt calls { NbTopsFan++; //This function measures the rising and falling edge of the hall effect sensors signal } // The setup() method runs once, when the sketch starts void setup() // { pinMode(hallsensor, INPUT); //initializes digital pin 2 as an input Serial.begin(9600); //This is the setup function where the serial port is initialised, attachInterrupt(0, rpm, RISING); //and the interrupt is attached } // the loop() method runs over and over again, // as long as the Arduino has power void loop () { NbTopsFan = 0; //Set NbTops to 0 ready for calculations sei(); //Enables interrupts delay (1000); //Wait 1 second cli(); //Disable interrupts Calc = (NbTopsFan * 60 / 7.5); //(Pulse frequency x 60) / 7.5Q, = flow rate in L/hour Serial.print (Calc, DEC); //Prints the number calculated above Serial.print (" L/hour\r\n"); //Prints "L/hour" and returns a new line }
You can refer our forum for more details about Reading Water Flow rate with Water Flow Sensor.
The external diameter of thread the connections use is 1.4mm.
Pulse frequency (Hz) in Horizontal Test= 7.5Q, Q is flow rate in L/min. (Results in +/- 3% range)
| Output pulse high level | Signal voltage >4.5 V( input DC 5 V) |
| Output pulse low level | Signal voltage <0.5V( input DC 5V) |
| Precision | 3% (Flow rate from 1L/min to 10L/min) |
| Output signal duty cycle | 40%~60% |
Here is the Sensors FAQ, people can go here to find questions and answers for this kind of products.
What materials is water flow sensor made of?
Nylon with fiber, avoiding strong acid and strong base.
Is the water flow sensor safe for drinking water?
Yeah, it has been used on drinking machine.
If you have questions or other better design ideas, you can go to our forum or wish to discuss.
| Revision | Descriptions | Release |
|---|---|---|
| v1.0 | Initial public release | May 31, 2010 |
| v2.0 | Public release 2.0 | Jul 05, 2010 |
Other related products and resources.
It's a pity that we don't have any demo about G1/2 Water Flow Sensor in the Recipe yet.
Post your awesome project about G1/2 Water Flow Sensor to win $100 Coupon!. Please feel free to contact us: recipe@seeed.cc
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This water sensor module is part of the Twig system.You can use it with the analog pins to detect the amount of water induced contact between the grounded and sensor traces.
It works by having a series of exposed traces connected to ground and interlaced between the grounded traces are the sens traces.
The sensor traces have a weak pull-up resistor of 1 MΩ. The resistor will pull the sensor trace value high until a drop of water shorts the sensor trace to the grounded trace.
This circuit will work with the digital I/O pins of your Arduino.
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How it works:
I want to make it.
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