Wednesday, December 11, 2024

Simple FM Radio Using TBA120S

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This is a simple FM radio using a popular TBA120S (14-pin). Most FM radio works on 10.7MHz IF frequency but this one does work on 5.5MHz IF frequency. So, the components like the 5.5MHz ceramic filter, and 5.5MHz IFT coil used for this FM radio can be easily found in the market at a very low-cost. Also, an IC TBA120S used in this circuit can be easily found in the market at a very-low cost or you can take off from your old Black & White TV receiver set etc.

Circuit Working

The circuit is very simple. An IC1 TBA120S and Q1 (BF494) were the heart of this FM radio. A few passive components and Inductor L1 trimmer capacitor VC1 (2-22pF), X1(10.7MHz ceramic filter) and T1 (5.5MHz IFT coil) were used in this circuit of FM radio.

Circuit Diagram

Resistor R1 (470K) is connected between a base pin of Q1 (BF 494) and +6Volts. Resistor R2 (470) is connected between the emitter pin of Q1 (BF494) and the ground.

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Resistor R3 (680) is connected between pins 13 and 14 of IC1 (TBA120S). R4 (100) is connected to pin 11 of IC1 and to a +6V terminal.

Capacitor C1 (.001uF) is connected to an antenna (75cm long) and to baseQ1 (BF494).C2 (.01uF) is connected between a base of a Q1 (BF494) and to a ground. C3 (10pF) is connected between the emitter and collector of Q1 (BF494). An output (pin 3) of X1 (5.5MHz ceramic filter) is connected to a pin 14 of IC1 (TBA120S). A 5.5MHz IF frequency is taken off from an emitter of Q1 (B494) and to a pin14 of IC1 (TBA120S) with a capacitor C4 (33pF). Pin no 2 of X1 is a connector to the ground.

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Capacitor C5 (103) is connected between pin 13 and pin 12 and to a ground terminal. Capacitor C6 (103) is connected between +6V and ground. Capacitor C7 (103) is connected between pin2 and 13 of IC1.

C8 (103) is connected between pin 8 and pin 11 of IC1. A 5.5MHz IFT coil is connected between pin 7 and pin 9 of IC1. An AF output signal is taken out from pin 8 of IC1 (TBA120s) through an electrolytic capacitor C9 (22uF/25V). Pins 1,3 and 4 are connected to the ground terminal.

Construction and testing

You’ll require a 5cm*7cm Vero board for making your TBA120S FM radio. You may use a PCB board as given in the article.

PCB Layout

First of all take a 14-pin IC socket and put it on the middle of your vero board. Take a low-watt soldering iron and gently solder a 14-pin IC on the middle of a vero board.

Now insert an NPN transistor Q1 (BF494) on the left side of a vero board. Now insert all the remaining components like 5.5MHz IFT coil, resistors, capacitors or 5.5MHz ceramic filter and also solder all of them.

Next, we’ll test a finished FM radio. You’ll need a 5.5MHz signal generator. Connect a + 6V power to your FM radio and connect the AF output signal to an AF amplifier input. Turn ON your 5.5 MHz signal generator and bring a 5.5MHz signal generator near your FM radio. You’ll hear an AF tone coming out from a speaker of AF amplifier.

Next, connect a 75 cm wire to an antenna terminal. Slowly tune VC1 with a plastic screwdriver until you receive a signal. You may also tune your FM radio by squeezing coil L1 (5 turns of 23 SWG wire on a 5 mm air core).

Now you’ll hear a station from your FM radio. Finally, take a plastic screw and gently tune a 5.5MHz IFT coil until you’ll hear a clear sound from your FM radio. So, enjoy listening to FM radio.

Author’s Prototype

Parts List

Semiconductor
Q1: BF 494
IC1: TBA120S
Resistors
R1: 470K
R2: 470
R3:2K2
R4:100
Capacitor
C1:.001uF
C2: .01uF
C3:10pF
C4: 33pF
C5: 103
C6: 103
C7: 220pF
C8:103
C9:22uF/25V
VC1: 2-22pF trimmer capacitor
L2: 5 turns of 23 SWG wire on 5mm air core
Miscellaneous
5.5 MHz 2-pin ceramic filter
5*7 cm veroboard
14-pin IC socket
5.5MHz IFT coil e.t.c.

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