Simple Siren Circuit Using Transistors

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Simple Siren circuits are an important part of electronic security devices nowadays. In this project, we will focus on a simple & low-cost transistor-based circuit with a high-power loudspeaker, which can be used for home security & as a warning system against intruders. The electronic siren circuit given here is based around a transistor pair Q1 & Q2 (2N2222 & 2N2907 respectively) connected as an astable multivibrator, which drives the speaker directly.

The main advantage of a simple siren circuit is that it provides round-the-clock constant protection against burglars & break-ins. Also, due to its compact design, its location can be changed easily & frequently.

2n2222 npn transistor

Hardware Components

The following components are required to make the Simple Siren Circuit

S.NoComponentValueQty
1.Breadboard1
2.Battery9v1
3.Connecting wires1
4.Speaker8 ohm1
5.Transistor (NPN, PNP)2N2222, 2N29071
6.Resistors22k, 47k, 39k1,1,1
7.Polar Capacitor 22uF, 0.47uF1,1

2N2222 Pinout

2n2222 transistor pinout

For a detailed description of pinout, dimension features, and specifications download the datasheet of 2N2222

2N29047 Pinout

2N2907-Pinout

For a detailed description of pinout, dimension features, and specifications download the datasheet of 2N2907

Simple Siren Circuit

Simple Siren Circuit Using Transistors_Diagram-Schematic-1

Working Explanation

This circuit produces a sound very similar to a siren. This is due to the generator part of the circuit, which is a combination of PNP (2N2907) and NPN (2N2222) transistors. Combined, the two transistors represent a self-triggering multivibrator.

When the circuit is switched on, the capacitor C1 charges slowly till it reaches its maximum voltage level. This increasing voltage results in a decreasing time constant at the R2/C2 junction, Which also results in an increased frequency of the multivibrator. On disconnecting the circuit from the power, the capacitor C1 discharges slowly resulting in a decreasing frequency cycle. The tone signal from the speaker will be an increasing or decreasing tone depending on whether the circuit is switched on or off.

Applications

  • Commonly used in home security setups & monitoring systems.
  • Industrial uses such as fire & substance danger alarms.
  • Civil defense uses such as alarms for early warning systems.
  • Usage in Emergency services such as police & ambulance sirens.
  • Usually found in devices such as screamers, PA Systems & loudspeakers.