How To Interface PIR Sensor With Arduino

Hello Arduinians... Ever thought of detecting motion via your Arduino.... if yes, then this one's for you. In this tutorial, We're interfacing PIR sensor today with Arduino. Let's gets started!

Block Diagram

Block Diagram

Components Required For This Tutorials

1. 1 * Arduino Board
2. 1 * PIR Motion Sensor(you can buy from here)  
3. Breadboard
4. Jumper wires
5. Battery

What is PIR motion sensor & how it works?

Basically, a PIR stands for "Passive Infrared Sensor". The sensor works on the principle of infrared waves' detection those are being emitted by human bodies. They are undetectable to us but can be discovered by the devices designed for such special purposes. I'm going to go just a little deep, enough to make you understand the internal operation.

When a body moves in front of a PIR sensor, the temperature of that place changes where the body has moved. If the body makes a further movement, the composition of infrared waves being received by the PIR from that region changes and since the reading is not the same as last reading, it generates a signal for the microcontroller and we work on it accordingly.

Arduino Distance Measurement Using Ultrasonic Sensor

How To Interface LDR With Arduino

Circuit Diagram

We can easily interface PIR motion sensor with Arduino-like our other sensor. But it all depends on our logic of the code, how efficiently do we want to detect motion through it.

A PIR has 3 pins, just like any other sensor, Vcc, Signal & Ground pin. A very simple circuit of interfacing PIR motion sensor with Arduino is shown below

Circuit 

                                                                                          PIR Motion Sensor                                          

The 2 knobs are there too. One for adjusting sensitivity by increasing or decreasing the range of motion detection and another one for response delay. If you're using PIR in your home security, I strongly suggest you set the range at maximum (towards right). However, the detection range offered by a PIR sensor is good enough, like about 6 metres as I've tested it successfully.

Source Code

Here is a very simple code for this tutorial which only detects if there is ANY motion and triggers an LED for confirmation.Write below code into Arduino IDE and compile it.

int pirSensor=5;                                                     // connect sensor at pin 5

int led=13;                                                             // connect led at pin 13

void setup() 

{

   Serial.begin(9600);                                             // initialize serial

   pinMode(led, OUTPUT);                                  //  initialize led as output

   pinMode(pirSensor, INPUT);                            //  initialize sensor as input  

}

void loop() 

{

  int sensorValue = digitalRead(sensor);                // read sensor value

  Serial.println(sensorValue);                                 // print sensor value  

  delay(100);                                                          //  delay 100 miliseconds

  if(sensorValue > 600)

  { digitalWrite(led,HIGH); }

}

Now you can connect the signal pin to any analog pin also but for that, you'll have to check what values do you get on the serial monitor and which value do you wish to use as a threshold for triggering any LED, buzzer, etc.

Note that the sensor first takes some time for its calibration and after that it starts detecting motion. If any motion is detected, it triggers the LED on Arduino board and keeps searching for the motion for a certain amount of time. It only settles low if there is no further motion detected for that given search period (which can be changed in code). Giving a search window to your sensor, makes it's working more efficient and there are better chances for you to get non-erroneous functioning.

I too did both codes and both worked fine for me. Here's a snap!

Demo

So that's an end to our tutorial  for this time. Hope you enjoyed reading. If you liked this tutorial then don't forget it to share with your friends. I'll be back with more..... till then #happyDIYing

If you have any question or query or feedback regarding this tutorial then leave a comment below and we will solve those as soon as possible.

Be sure to buy the stuff mentioned in this blog by clicking on the link below-
http://www.ebay.in/usr/4d_innovations?_trksid=p2053788.m1543.l2754

The vendor's offering interesting and working hardware at quite handy rates. Go give it a try! :)

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Learn How To Make A Digital Voltmeter Using Arduino

Arduino is very popular and easy to use. With Arduino, we can do lot's of projects and experiment. So today we add one more projects in our Arduino project list. In this article, we are going to make a digital voltmeter.using an Arduino board. In this project, we measure the input voltage range between 0 to 50V by using the voltage divider. It is very simple to use Arduino as a voltmeter. Arduino UNO has  5 analog pin to read the input analog value. If we have an idea about reference voltage then we can easily measure the input voltage. Here we will use 5V as a reference voltage.

Block Diagram

Block Diagram of DC Voltmeter

Component Required 

1. 1 * Arduino Board(In this article we use Arduino UNO)
2. 1 * LCD Module(Here we will use 16 * 2 LCD Module)
3. 1 * 100K Resistor 
4. 1* 10K Resistor
5. 1 * 5K Potentiometer
6. Some jumper wires
7. Breadboard 

Circuit Diagram

Circuit diagram of this projects is very simple and easy to understand. Here we use a 16 * 2 LCD module to display the voltage. Read this article to learn How To Interface LCD With Arduino UNO.

Circuit Diagram

A voltage divider circuit is used here to divide the input voltage by the range  of Arduino board. As we all know that Arduino is compatible with till 5v only. Above this voltage, our Arduino may be damaged.

Analog input pin on the Arduino board measure the input voltage and convert it into digital format by using inbuilt ADC(analog to digital converter) that can be processed  by Arduino and then display it on LCD. In this project, we fed input voltage to analog pin A0 of Arduino by using the voltage divider circuit. A simple voltage divider circuit is made by using one 100kohm and one 10kohm resistor to make the 1:11 divider. Thus, by using this voltage divider circuit we can measure the voltage up to 55V.                      

         Voltage divider output  Vout  = Vin * ( R2/(R1+R2) )

It is good if you use this voltmeter project to measure the voltage within range 0v to 35v. Because large voltage may be damaged your Arduino board. 

Code 

In this project, we use inbuilt liquid crystal library for the display of voltage value and analogRead() function to read the input voltage at the analog pin A0. Here our reference voltage is 5V, hence we multiply read value with 5 and then divide it with 1024 to obtain the actual voltage. Then by using the voltage divider formula we can decrease this value within the range of Arduino board voltage.

Video Demonstration 

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Automatic Street Light Controller Circuit Using LDR And 555 Timer IC

We are living in the world where everything goes to be automatic from your washing machine to your ceiling fan. Street lights are one of those examples of the automatic world. Automatic street light are those light which needs no manual operation to gets turn ON and turn OFF. Did you ever try to make such kind of street lights that gets turn ON and turns OFF automatically? In this article, we are going to make automatic street light using LDR and 555 timer IC.

List of Components  

1. 555 Timer IC
2. LDR
3. LED
4. Potentiometer
5. Resistor 1* 1k ohm 
6. Resistor 1* 220 ohm
7. 9V Battery
8. Printed Circuit Board(PCB) Or BreadBoard 

Circuit Diagram

A very simple circuit diagram of automatic street light is given below. 

Automatic Street Light Controller Circuit

Principle and Working of Automatic Street Light Controller

555 Timer IC is the main part of the circuit that works as a comparator. All the working of this circuit depends on the working of the 555 timers Ic.To know more about 555 times IC read this article Working of 555 Timer IC. In this circuit pin, 3 produce output which has just two states high and low. Output goes to high when  trigger pin  is at a lower level than the 1/3rd level of the power supply voltage and output goes low when trigger pin 2 is at above then 1/3rd  of the power supply voltage. In this circuit pin, 4,6 and 8 are connected to the power supply. Here we use LDR to detect the presence of light which is formed a potential divider circuit with the help of 1k ohms resistor. LDR is a special type of resistor whose value depends on the light. Read this article to know How LDR Works. The output of this divider circuit is given to trigger pin of the 555 timer IC. 

In this circuit, we use a simple LED to know how the whole circuit works. You can also connect as much led as you want by using the transistor or you can connect a Relay to control high voltage electrical bulbs. 

You must use caution while connecting Relay to this circuit because its may be danger and as different bulb have different wattage.

Video Demonstration of Automatic Street Light Controller

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Arduino Distance Measurement Using Ultrasonic Sensor

We all know about the ultrasonic sensor and also wanted to play with it, but don't know how ultrasonic sensor works. So In this article, we will see  how to use an ultrasonic sensor with your projects. The ultrasonic sensor is very popular among arduino hobbyist and there are so many projects which you will be able to do at the end of this article.

Description of HC-SR04 Ultrasonic Sensor

Ultrasonic Sensor can measure the distance from 1" to 13 feet( 1 cm to up to 4metre) with accuracy up to 3mm. A hc-sr04 ultrasonic sensor has 4 pin GND, VCC, Echo and Trigger Pin. Trig pin generate an ultrasound by setting trig pin on the high state of 10 microseconds. Echo pin produce an output in a microsecond when ultrasound returns back from the object to echo pin.

We can calculate the distance by using simple formula Speed=(Distance/Time). The speed of the sound is 340m/s and thus by calculating ultrasound travel time we can calculate the object distance from the ultrasonic sensor.

Required Components

1. 1 Arduino UNO board( Buy from here Arduino )
2. 1 HC-SR04 ultrasonic sensor ( Buy from here sensor )
3. Jumper wire
4. Breadboard

How To Interface LDR With Arduino

Circuit Diagram

Ultrasonic sensor pin connected to arduino pin in a very simple manner as shown in the image below. Here we use a voltmeter as a reference because we can't place a real object before the LDR. So when we increase or decrease the voltage level of voltmeter then its corresponding value also changed.

Arduino           Ultrasonic sensor

Vcc                      Vcc

Pin 5                   Trig

Pin 4                   Echo

Gnd                     GND 

Circuit

Source code

Here first we define the trig pin and echo pin of the ultrasonic sensor and they are pin no 5 and pin no 4 respectively. Here we define Trig pin as output and Echo pin as an input. After that, we defined three long variable name duration, cm and inches. In the loop first we set the Trig pin Low for few microsecond and after that, we set it in the high state for 10 microseconds. We read the travel time by ultrasound by using the pulseIn() function.

Source Code

For getting the exact distance we multiply .034 in duration and then divide it by 2 because ultrasound travels forward and backward. At the end we use Serial.print() function to print the value in the virtual terminal.You can download the source code by clicking on the link.

Video Demonstration 

Hope you like this tutorial on the ultrasonic sensor. If you have got any problem using the ultrasonic sensor or its proteus simulation then feel free to comment below or if you have any suggestion about this tutorials and let me know by your valuable comments. 

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How to Interface 4*3 Keypad With Arduino

In this article, we will find out how to interface a matrix keypad with arduino in very easy technique. During this article, we are using a 4*3 matrix keypad. Keypads are a very important component in the embedded system which are used in various mini or major comes and the commercial product like telephone, electronic locker, and alternative automation product. At the end of the article you may be ready to interface a matrix keypad together with your arduino and after you press a key, its shows up into the serial monitor.

What is 4*3 Matrix Keypad

One of the most frequently asked question among the students or hobbyist are when we use 4*3 or 4*4 matrix keypad and what is the difference between them. Therefore, we have only one answer what's your requirement within the project. The logic behind operating of each keypad are same. The 4*3 keypad is simple keypad having 4 rows and 3 column, therefore, total 12 keys as shown in the image. There are so many distributors wherever you will purchase a keypad otherwise you can purchase from here. 

 

Circuit Diagram

The circuit of interfacing of a keypad with arduino is very simple. You only need to connect rows 1, 2, 3, 4 to digital pin 6, 7, 8, 9 respectively and column 1, 2, 3 are connected to digital pin 10, 11, 12 respectively of the arduino. The circuit is extremely easy to grasp as shown in the below image.

Circuit Diagram

Program

Program of interfacing a keypad with arduino is extremely easy. Here we simply use an if-else statement to check every condition one by one. First we kept row 1 low and check all condition for it and equally with others rows one by one. You can download the source code from here.

SEE THIS ALSO: Interfacing Push Button Switch to Arduino

From here you will display the key on an LCD and build a lot of other cool projects like door lock, calculator, security system enabled projects. Hope you like this article. If you have got any doubt then comment below or have any suggestion then you may be forever welcome to ProjectsDunia.

VIDEO:

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How To Interface Relay With Arduino

A Relay is an electromagnetically operated switch. Relays are used to control a circuit. Many relays consist a coil, a yoke, and an armature. When a current is passed through the coil, a magnetic field is induced in the coil which moves the armature and relay start its switching function. A normal relay has NO(normally open), NC(normally connected), COM and coil pin within it. A Simple one channel relay is shown in below image

Relay

Required Components
For designing a relay driver circuit you will need following components 

• Relay
• 1N4007 Diode
• BC547 Silicon NPN transistor
• 10K Resistor 

Circuit Diagram

A simple relay driver circuit is shown in below image. Here we use an NPN BC547 transistor to drive the relay.Base current ought to be a lot of enough to turn on a transistor. A diode 1N4007 use among the circuit to protect the transistor from damage due to back emf. When relay is in off state, COM pin of 

Relay Driver Circuit 

a relay is connected to NC(normally connected) pin and when a small current start flows through relay coil then COM pin is connected to NO(normally open) pin.

NOTE: Change +5V  to +12V in the circuit 

Code for relay testing is same as for blink an LED so learn  how to blink an LED and test your relay driver circuit. Now using relay make some more cool projects using arduino like control your AC home appliances, turn ON/OFF a bulb and many more.

Hope you like this article and give your valuable feedback by commenting below or if you have got any problem then also comment below. 

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How To Interface LDR With Arduino

Hello, Friends hope all of you playing with your arduino and currently need to try to do another cool projects on arduino. Therefore, this tutorial is for you. During this tutorial, we interface LDR(Light dependent Resister) with the arduino board. It is very simple tutorials for arduino students, hobbyist, and beginners. Before going more we must find out how LDR is dependent on Light.

What is LDR 

LDR(Light dependent Resister) or a photoresistor is a light dependent variable resistor that resistance decreases with the increase in the intensity of light. This gives an analog value so that it is connected to an analog pin of arduino board. A simple LDR is shown within the image and to buy an LDR click on the below image

Circuit Diagram

A simple circuit diagram is shown in the image. We won't use LDR directly within the circuit in order that a potential divider circuit is used with a 10K resistor. In this circuit one pin of LDR is connected to Analog pin A0 of arduino UNO and one pin is connected to ground(GND).

LDR Circuit

Source code

Now connect your arduino board together with your PC and upload the given source code into the board. After uploading the code run your program and see the different value in your serial monitor.

LDR Code

Download:

download this file 

Watch This Video:

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How To Display Custom Characters On LCD Using Arduino

We all are aware of custom characters used in the various display module.Heart, various style of smileys, arrow are the foremost usually used custom characters. Thus, during this tutorial, we are going to learn how to display custom characters in LCD using arduino UNO board. This project is done by using of arduino UNO board and 16*2 LCD module.

Custom Character Display

It is assumed that reader knows how to interface LCD with arduino and how to install arduino software.We can generate a completely different style of the custom character using the below pixel array shown in the image. 

Pixel array

the custom character shown below that is used in our program to generate the smile type character:

         {

                0b00000,

                0b00000,

                0b01010,

                0b00000,

                0b10001,

                0b01110,

                0b00000,

                0b00000

              };

Circuit diagram:

Circuit Diagram

Source Code:

Download:

Download all file

Video:

      

                                      

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Arduino-based Automatic Temperature Fan Speed Controller

In many small or large industry, you may have seen such a lot of fan that speed is control according to the temperature of the place. Thus, during this article, we have presented a demo of that application. It's assumed that you have an idea of how to read reading from the temperature sensor IC. In industry
temperature range will be more than 100 ^oC  but here we will work on the very low range.

Block diagram of Temperature control FAN

Block Diagram

Required Components 

1. Arduino UNO board (buy from here arduino )
2. Temperature sensor IC LM35( buy from here LM35 sensor )
3. DC Fan
4. resistor 1* 1K
5. 16*2 LCD Display
6. Power supply  
7. Diode(1N4007) 

Circuit Diagram 
In this application, we use an arduino board to control the speed of the fan and a 16*2 LCD display to display the status of the fan. Here we use a diode in parallel with FAN to prevent it from the damage and a 9V battery to provide power to the fan.

Circuit Diagram

Code
Again like our previous projects, code for this projects is also very simple. Here we use an analogRead() function to get the value of temperature sensor and store that value in the variable.When this value will exceed the min_temp value then the fan will start otherwise its always off. Download the file to get the source code of this projects along with its circuit diagram.

Source Code

Download

In the below link you will get all the file required for this projects.

Required file to download

Video Demonstration

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How To Make a PC Control Robot

Do you ever tried to control your robot using your PC or laptop? Controlling a robot using PC or laptop is often being a fun for the student or hobbyist. Thus during this article you will be tend to learn how to control your robot using your PC or laptop. Here it is assumed that you know How To Send Serial Data From Arduino To Laptop or PC and How To Receive and Send Serial Data Using Arduino Board. Thus lets begin to making this awesome DIY hack today with us.

Replica of robot

Component Required:

1. Arduino UNO Board
2. PC/Laptop
3. L293D Motor Driver IC
4. 2 Motor
5. Serial Bluetooth Module
6. 2 wheels
7. Chassis
8. Castor wheel
9. Software (serial port software on your PC/laptop) 

Click here to see more projects on Arduino

Block Diagram:

Block Diagram

Setup Connection For Robot:

Circuit Diagram

Here we use a L293D motor driver IC which is used for the controlling the rotation of the two motor connected to robot. Pin no 2,7,10,15 of L293D motor driver IC is connected to the pin no 9,8,7,6 of arduino board. Output pin 3,6,11,14  of the L293D motor driver IC is connected with the motor as shown within the Circuit Diagram Image.

L293D Motor Driver IC

For the connection of RX and TX read this article How To Receive and Send Serial Data Using Arduino Board 

NOTE:- Bluetooth Module should be removed while uploading the code from PC to Arduino board.

Code for PC Controlled Robot:

If you are beginner to arduino then download Arduino IDE from here How To Install Arduino Software On Windows. We use 9600 baud rate for the transmission of the data from PC/Laptop to Robot.Click here to Download the source code for PC controlled robot. 

Arduino Code

We can control the robot using the following instruction 

'8' = Forward

'2' = Backward

'4' = Move Left

'6' = Move Right

'5' = Stop

Download:

File for PC controlled Robot

Video:

  

If You have got any problem then be happy to comment in comment box or you can contact us at Facebook or Google+. 

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How To Install Proteus Software On Windows

Proteus is an Electronics design and simulation software developed by the Labcenter Electronics. Engineering student or hobbyist will design and check their project on Proteus software before assembling it on hardware. To install  Proteus software on windows follow the below instruction:

Download the Proteus software setup from here and double click on the setup.exe file as shown in below image

Setup

After few minute step can complete here you'll install the license key that ought to be valid for the Proteus software. Here you choose "use a locally installed license key". Currently, one in all two window is open. It'll be either window with already installed key or no key installed. If you get a window with an already installed key then simply click on the "next" and at the last click on the end to finish the installation.

How To Interface LCD With Arduino UNO

Currently, if you get a window with no key installed then initial download the license key from here.

Licence

Browse the on the top of the downloaded file in the window and so click on the "find all keys" and once few minute click on the "close". CCurrently,Proteus software is install on your window double click on the Proteus application to open the Proteus software.

     

   Note:

• Disable your antivirus program before installing the Proteus software on your windows

Now run your Proteus software application and revel in your design simulation of various PCB design and code.

DOWNLOAD:

Proteus

Licence key

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