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Tutorial 6: Rising Pitch Siren

Created on: 31 July 2012

A two transistor electronic siren breadboard circuit that produces an audible rising pitch on a loudspeaker. Tutorial and circuit for beginners in electronics.

A two transistor circuit that produces an audible rising pitch on a loudspeaker. After the pitch has reached its peak, the sound is stopped as this video demonstrates:

Can't see the video? View on YouTube →

Prerequisites

Complete tutorial 2.

Read about NPN transistors, PNP transistors and loudspeakers.

Components

Breadboard, wire links, battery and battery clip.

Qty Part Designator Notes Type
2 33k (orange - orange - orange) R1, R2 1/4W, 5% or better Resistors
1 100 ohm (brown - black - brown) or 120 ohm (brown - red - brown) R3 1/4W, 5% or better
1 1000uF C1 Electrolytic, 16V or more

Try different values of capacitor in place of the 1000uF capacitor e.g. 100uF, 470uF. The smaller the capacitance value, the less time the circuit will take to reach the highest pitch sound.
Capacitors
1 100n capacitor (0.1uF) C2 Non-polarized.
1 PN2222 Q2 NPN transistor Semiconductors
1 PN2907 Q1 PNP transistor
1 8 ohm loudspeaker SP1 Help to recycle – get the 8 ohm loudspeaker from an old PC case. Transducer

Books that may interest you:

C Programming with Arduino Book Ultimate Arduino MEGA 2560 Hardware Manual Ultimage Arduino Uno Hardware Manual

The required electronic parts are shown here:

Parts needed for the rising pitch siren tutorial
Rising Pitch Siren Circuit Electronic Components

Circuit Diagram

Two new symbols are introduced in this circuit diagram – the PNP transistor and loudspeaker.

Rising pitch siren circuit diagram
Rising Pitch Siren Circuit Diagram

Q1 pinout - PNP transistor:

PN2907 pinout
PN2907 PNP Transistor Pinout

Q2 pinout - NPN transistor:

PN2222 pinout
PN2222 and KSP2222 NPN Transistor Pinout

Building the Circuit

Insert R1 and R2

Insert the 33k resistors: Connect R1 from the top rail to a tie point in the board below. Connect R2 to R1 and to a tie point to the right.

Get the 1000uF capacitor and a wire link ready.

Two resistors in electronic breadboard
Step 1: Insert Resistor R1 and R2

Connect C1

Connect the positive lead of the 1000uF capacitor (C1) to the vertical breadboard strip that connects R1 and R2.

Connect the negative lead to the bottom rail through a wire link. One capacitor lead must be above the middle channel of the breadboard and the other lead below it.

Get the PN2222 NPN transistor (Q2) and a wire link ready.

Capacitor added to breadboard circuit
Step 2: Insert Capacitor C1 and Wire It

Insert Q2

With the flat face of Q2 towards the bottom rail of the breadboard, insert the transistor so that its middle lead (base) lines up with the right lead of R2 above it. Connect the left lead (emitter) to the bottom breadboard rail using a wire link.

Get the 100n (0.01uF) capacitor (C2) and a wire link ready.

Transistor added to breadboard circuit
Step 3: Insert Transistor Q2 and Wire Link

Connect C2

Connect the middle lead of transistor Q2 to R2 by inserting a wire link across the middle breadboard channel. Plug one lead of C2 into the same vertical connecting strip where R2 and the link that was just inserted join. The other lead of C2 must be positioned to the right of this connection.

Get the PN2907 PNP transistor (Q1) and a wire link ready.

Capacitor added to breadboard circuit
Step 4: Wire Q2 and Insert C2

Connect Q1

Insert a wire link so that it connects the right pin of Q2 (collector) to a tie point to the right. Insert Q1 so that its middle pin (base) connects to the other end of the wire link that was just inserted. Make sure that the flat face of Q1 is pointing to the bottom rail.

Get two wire links ready.

Second transistor added to breadboard circuit
Step 5: Wire Q2 and Insert Q3

Wire Q1's Emitter

Using two wire links, connect the emitter of Q1 to the top rail of the breadboard.

Get two wire links ready.

Transistor wired to breadboard circuit
Step 6: Wire Q1

Wire Q1's Collector

Using two wire links, connect the collector of Q1 (right pin) to the unconnected lead of C2.

Get R3 ready (100 or 120 ohm resistor).

Transistor wired to capacitor on breadboard
Step 7: Wire Transistor Q1 to Capacitor C2

Connect R3

Connect one lead of R3 to the collector of Q1 (right lead) and the other to a tie point to the right.

Get the loudspeaker and two wire links ready.

Connect resistor to breadboard circuit
Step 8: Insert Resistor R3

Connect the Loudspeaker

Connect the positive lead of the loudspeaker to the right lead of R3. Connect the negative lead of the loudspeaker to the bottom rail of the breadboard.

Two wire links are used to connect the loudspeaker to the breadboard here. If your loudspeaker does not have a connector then just plug the loudspeaker wires directly into the board.

Loudspeaker connected to breadboard circuit
Step 9: Wire the Loudspeaker to the Circuit

Operating the Circuit

Connect the negative lead of the 9V battery to the bottom rail of the breadboard. Connect the positive lead of the battery to the top rail of the breadboard to complete the circuit.

9V battery connected to the breadboard circuit
Step 10: Connect the Battery to the Circuit

After connecting the battery, the loudspeaker will produce an audible rising pitch. When the pitch reaches its peak, the sound will stop.

To produce the sound again, remove the positive lead of the battery for a while and then plug it in again. If the siren does not make a sound, then try leaving the positive lead unplugged for a while longer before connecting it again.

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