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Found 2 results

  1. Has this ever happened to you? You come back from a romantic dinner date and when you open the shutter door of your garage you realize that you left the garage light ON. You spent few hours outside with your partner to impress her and all the time this light bulb was on. You immediately turn around and look at her face to see a silent anger on her face. Alright, enough of that. So, in this tutorial, I am going to turn on and off the garage light using a PIR sensor. When the sensor detects a moving object, it turns on the light bulb and when the moving object is gone, it turns it off. Lastly, I am going to make sure that light bulb only turn on during the night time (when its dark). Step 1: Logic In this project, I will be using a PIR sensor along with an LDR to turn on or off a light bulb using a Relay. The things I need to consider before designing the circuit are: - The bulb should only turn on when the room is dark and when a motion is detected. - The bulb should turn off after 30 seconds of the object leaving the sensors proximity. - Most important, we need to place the LDR in a place where it doesn't turn off the bulb as soon as it lights up. Step 2: Hardware For this tutorial we need: A General Purpose PCB 2 x HC-SR501 PIR Sensor 2 x 1N4148 Small Signal Fast Switching Diodes 1 x 1N4007 High Voltage, High Current Rated Diode to protect the micro-controller from voltage spikes 1 x LDR 1 x 10K Trimmer Potentiometer 2 x 470 Ohms Resistor 1 x 10K Resistor 1 x 1K Resistor 1 x 2N3906 General Purpose PNP Transistor 1 x 2N2222 General Purpose NPN Transistor 1 x 5V Relay 1 x LED to display the status 5 x Terminal Blocks 1 x 220V to 5V Buck Step Down Module Few Connecting Cables And General Soldering Equipments Step 3: Assembly Lets first connect the LDR and setup the light detection bit. As we all know we need to setup a voltage divider to use the LDR in a circuit, so, I am adding this 10K POT and 470ohms resistor to setup the voltage divider bit. By adjusting the resistance of the POT we can adjust the intensity of sunlight at which this circuit will operate. Now, lets install the PIR sensor. Connect the VCC to +5v and GND to ground. Then connect the 1N4148 diode to the OUT of the sensor. In this circuit, I am installing just one sensor however in the actual project I have used 2 sensors to capture a bit more than 180 degrees. So, to avoid the sensors from back-feeding each other we need to install a diode to the OUT pin of each sensor. If you want to capture motion at 360 degrees you may need 3 to 4 sensor and diode pair to achieve that. Now that we have the PIR sensor and the LDR in place we need to add the 'AND' functionality. To achieve this I am adding a general purpose PNP transistor. When a motion is detected 'and' when the sunlight is at a certain intensity (adjusted by the POT) current flows out of the transistor. Next, we need to amplify the current received from the collector of the PNP transistor and turn on and off the LED indicator and the Relay. A general purpose NPN transistor is used to achieve this. That's it all done. Step 4: What Have I Have Made So, this is what I have made. On my board components are pretty much soldered everywhere, but you may like to have them nicely installed to give it a bit more cleaner look. OK, so lets check out how this works. Step 5: Demo Alright, I have placed the board on this table to do a quick test. I haven't hooked up a light bulb to the circuit yet. However, the LED indicator should serve the purpose of this demonstration. So, now I am going to turn off the light and make the room dark. Let's see if the sensor picks up motion and lights up the LED. Tada, it works. Now, lets turn on the light of the room and see if the LED indicator turns off or not. Yessss, that works. OK, finally just want to make sure that the light bulb turns off after 30 seconds of me moving out of the sensors proximity. Boom, and that concludes the project. I can now install it on the ceiling and make my partner happy. Instead of having 2 to 3 PIR sensors you can use one and install it at the corner of the wall. However, that will require a fair bit of wiring either inside the roof or on the ceiling, which will be way more expensive and tedious than installing 3 sensors an d putting the device in the middle of the room. You can also swap the Arduino with a NodeMCU board and do a remote data logging to log the time when the sensor detected motion or when the light went on to record when people entered your garage and how long they stayed in there. Step 6: Areas of Applications of PIR Sensors This setup can be used to: * Automate All Outdoor Lights * Automate Lights of Basement, Garden or Covered Parking Areas * Automate Lift Lobby or Common Staircases Lights * Automate bedside or night lamp * Create a Smart Home Automation & Security System and more.. Step 7: Thanks Thanks again for watching this video! I hope it helps you. If you want to support me, you can subscribe to my channel and watch my other videos. Thanks, ca again in my next video.
  2. Introduction --------------- Hi Everyone, This is my 1st Arduino's tutorial video. In this video i am going to show you how to use a LDR or Light Dependent resistor to turn on and off another circuit or a LED. Wouldn’t it be really cool if whenever a room gets dark, a light bulb automatically turns ON and eliminates the darkness? In this very simple project, I am focusing on eliminating darkness. You can even use this as an emergency lighting system. Step 1: Principle The LDR is a special type of resistor which allows a lower voltage to pass through it (high resistance) whenever its dark and higher voltages to pass (low resistance) whenever there is a high intensity of light. We are going to use a 10k resistor along with the LDR to create a voltage divider circuit. The varying resistance of the LDR is converted to a varying voltage that the analog pin of the Arduino will then be using in its logic. Step 2: Harware Reqirement For this very simple DIY Arduino project we need: - a breadboard - an arduino uno/nano (whatever is handy) - LED (Light Emitting Diode) - LDR (Photoresistor) - A 10K Resistor for creating the voltage divider and a 220ohm resistor for the LED - Few breadboard friendly connecting wires - and a USB cable to upload the code to the Arduino Step 3: Assembly - Connect the 3.3v output of the Arduino to the positive rail of the breadboard - Connect the ground to the negative rail of the breadboard - Place the LDR on the breadboard - Attach the 10K resistor to one of the legs of the LDR - Connect the A0 pin of the Arduino to the same column where the LDR and resistor is connected (Since the LDR gives out an analog voltage, it is connected to the analog input pin on the Arduino. The Arduino, with its built-in ADC (Analog to Digital Converter), then converts the analog voltage from 0-5V into a digital value in the range of 0-1023). - Now connect the other end of the 10K resistor to the negative rail - And the the second (free) leg of the LDR to the positive rail Pretty much this is what we need for the light sensing. Basic circuits like this can be done without an Arduino aswell. However, if you want to log the values and use it to create charts, run other logics etc. I will recomend an Arduino or ESP8266 or may be a ESP32 for this. Now, as we want our circuit to do something in the real world other than just displaying the values on the computer screen we will be attaching a LED to the circuit. The LED will turn on when its dark and will go off when its bright. To achieve this we will: - Place the LED on the breadboard - Connect the 220ohm resistor to the long leg (+ve) of the LED - Then we will connect the other leg of the resistor to pin number 13 (digital pin) of the Arduino - and the shorter leg of the LED to the negative rail of the breadboard Step 4: The Code const int ledPin = 13; const int ldrPin = A0; void setup() { Serial.begin(9600); pinMode(ledPin, OUTPUT); pinMode(ldrPin, INPUT); } void loop() { int ldrStatus = analogRead(ldrPin); if (ldrStatus <= 200) { digitalWrite(ledPin, HIGH); Serial.print("Its DARK, Turn on the LED : "); Serial.println(ldrStatus); } else { digitalWrite(ledPin, LOW); Serial.print("Its BRIGHT, Turn off the LED : "); Serial.println(ldrStatus); } } Thanks again for watching this video! I hope it helps you. If you want to support me, you can subscribe to my channel and watch my other videos. Thanks, ca again in my next Instructable.
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