Have you ever thought about implementing your own home security alarm systems? It's one of the simplest and interesting circuits for electronic beginners. Our new home security equipment uses a LDR (Light Depended Resistor) to detect security problems. Theft attempt and other security threats can be controlled by using this simple circuit to improve your security systems. This is also best suited for school students for their high school science projects.
To implement this alarm system for home, you have to provide an optical path (with LASER beams) around your home. The LASER path is made possible with one LASER torch and 3 mirror arrangements which encloses the whole area. Please refer the project arrangement section below to make this optical (light) path. We have explained about home security system in detail with animation/ simulation.
Also Read: How to make a burglar alarm circuit with IR and photodiode?
To implement this alarm system for home, you have to provide an optical path (with LASER beams) around your home. The LASER path is made possible with one LASER torch and 3 mirror arrangements which encloses the whole area. Please refer the project arrangement section below to make this optical (light) path. We have explained about home security system in detail with animation/ simulation.
Circuit diagram of Home security alarm
Components required
- Battery 6V
- Resistors ¼ watt (150kΩ)
- LDR (Light Depended Resistor)
- Transistor BC547
- 6V Buzzer
Working
- This circuit is based on LDR (Light Depended Resistor), a variable resistor in which the resistance varies according to the light intensity falling on it.
- The LDR and resistor R1 forms a potential divider network, which is the main part of our security alarm circuit.
- We have already discussed about how transistor acts as a switch, the same principle is used here.
- The voltage drop across the LDR is used to drive the transistor switch. When the voltage drop is above cut in voltage (0.6V), the transistor is turned ON.
- LDR has low resistance (mΩ range) in the presence of light and high resistance (MΩ range) in the absence of light.
- In our security alarm, a LASER light is allowed to fall on the LDR continuously using 3 mirrors (see the project arrangement figure).
- Light from other sources should not be allowed to fall on the LDR, so place the LDR in a box with a single hole to pass LASER.
- In this situation, the resistance offered by LDR is too low, since the LASER light is continuously allowed to fall on the LDR surface.
- Thus the voltage drop across the LDR is also low [V=IR (Ohm’s law)] which is insufficient to turn ON the transistor, so the transistor remains in OFF state.
- When a person (eg: thief) makes a block to the continuous flow of LASER beam, then the light falling on the LDR gets blocked. Thus its resistance increases to a high value in the order of MΩ range (According to Ohm’s law V=IR).
- While resistance increases the voltage drop also increases, when this voltage drop exceeds the cut in voltage of the silicon NPN transistor (0.6V; BC547), it will turn ON.
- Then current from Vcc starts flowing to ground via the buzzer and transistor, which makes the beep sound.
- The beep sound from the security alarm gives the indication of some security failures.
Simulation (animation) of the project
To realize the concept we are providing animation/ simulation of home security alarm circuit below. For animated demonstration, LED is used instead of buzzer.Project arrangements
The arrangement of LASER path is shown in the above image.Also Read: How to make a burglar alarm circuit with IR and photodiode?
Video Demonstration of Home security Alarm
Here is the video from Circuits Gallery video labBC547 pinout
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I made this circuit, its working
ReplyDeleteI have a concern my buzzer rings so slowly with a low volume. How to make it rings fast???
Hi sumaia,
DeletePlease check the configuration of your buzzer. Confirm whether is is 6V or some thing other. You must use 6V buzzer
hi.. i just wanna ask if what transistor i can substitute on the above bc547... i made this circuit using 2n222 but it ddnt,, work.. help me pls....
ReplyDeleteYou can use BC548 transistor for this application. It is a substitute for BC547
Deletecan you elaborate the point 4 of working
ReplyDeleteHi Arohan Ajit,
DeleteWe already explained the how a transistor act as a switch.
Still confused? Comment here..
Can we use a 6v relay replacing the Buzzer??
ReplyDeleteUse your name while commenting for better response instead of being anonymous. You can use 6V relay but better use BC548 instead of BC547.
Deletei made the circuit bt it goes of as soon as i connect to battery. the laser light dsnt affect it...pls help
ReplyDeleteDo the follwing:
Delete1) Use a 100K potentiometer instead of 150K resistor and set the intensity of light.
2)Enclose the LDR with a black hollow cylinder such that only LASER beam passes in.
sir, can i replace the 547 transistor using a darling-ton pair so that this schematic can operate a relay instead of a buzzer??
ReplyDeletei will be thankful for your help....my email address is (dnkwenti @ gmail.com)
This had been already discussed in above comments.
Delete