Introduction: IR Detector Project | IR Sensor | Photodiode Circuit | Easy Electronic | DIY
Hello , Today In This Tutorial I Am Going To Show You Step By Step ( Home Made )
How to make infra red led detecting / decetor circuit
This Electronic Project is Very Simple Easy and DIY (Do It Yourself)
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Step 1: Hardware Required
- 3.IR LED Pair (TX,RX)
- 4.220 Resistor
- 5.1k Resistor
- 6.LED For Indication
- 7.9v Battery + Clip
Step 2: Circuit Diagram
Step 3: Working Explanation
Infrared sensors are much common in our electronics life. They are used in many real time applications like for opening and closing the gates at Metro Station. Even they are used in our Mobile phone to turn off the display light during the call.
IR sensor is very popular sensor, which is frequently used in many applications in electronics, like it is used in Remote control system, motion detector, Product counter, Line follower Robots, Alarms etc. We have already covered complete working of IR sensor here in this article: IR Sensor Module Circuit. IR Sensor basically consists a IR LED and a Photodiode.
In this circuit, we are going to demonstrate an application related to IR sensors which is IR Detection using 555 Timer IC. Here we have used IR LED or TV/DVD remote as a IR transmitter and Photo Diode as IR Receiver to detect the IR signal. Detection of IR signal will Trigger the 555 timer and buzzer will start beeping. Almost same concept has already been covered in our previous circuit: IR Based Security Alarm, where we used voltage comparator IC LM358, in place to transistor, to trigger the 555 IC.
Circuit and Working Explanation:
Before going into the explanation, we should note that Transistor Q1 BC547 is a NPN transistor, which conducts or Turns On, when a small positive voltage is applied to its base. And Transistor BC557 is PNP transistor which Conducts or Turns On, when a negative voltage (or ground) is applied to its base. Circuit of this IR detector is given below:
When the IR Sensor Circuit is switched ON, IR LED starts emitting the Infrared, which falls upon the photodiode and a potential difference is generated across PHOTO diode which Turns On the transistor BC547, which further Turns On the Transistor BC557 by pulling down its base to Ground. Now Transistor BC557 starts conducting and power supply is applied to the 555 Timer IC (at PIN 8), which turns ON the 555 IC. 555 Timer IC is configured in Astable Mode, so the LED and buzzer, which are connected to its Output (PIN 3), start blinking and beeping, with a particular frequency. This frequency of LED blinking can be determined by the given formulae of Astable Multvibrator:
F = 1.44 / (R1+2*R2) * C1
Where R1 represents the resistor between Pin 7 & Pin 8 and R2 represents the resistor between Pin 6 & Pin 7. C1 is capacitor between Pin 6 and Ground of 555 Timer IC. R (resistance) is in ohm and C (capacitance) is in farads.
We can also use TV/DVD remote for IR radiation (replacing the IR LED), as you can check in the Video at the end.
555 Timer IC is here generating some variable frequency. 555 Timer IC is a general purpose IC which can be configured in some different modes like A-stable, Mono-stable, Bi-stable, having different applications for each mode. Here in this project we have configured 555 Timer as an A-stable multi-vibrator in which both the stage of signal are unstable. Astable mode is also called frequency generator.
To detect or read the IR light, we can also use TSOP1738 as IR Receiver, its output is active low, means output remains High when there is no IR, and becomes low when it detects IR, you can check IR Transmitter and Receiver using TSOP.
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