27.145Mhz Nbfm Receiver Circuit

Using a Motorola MC3363 LSI one-chip FM receiver, the circuit is a dual-conversion FM receiver with a 10.7-MHz IF chain. IC4 provides power to drive a small speaker.

The described circuit employs the Motorola MC3363 integrated circuit, which is designed for FM radio reception. This one-chip solution simplifies the design by integrating multiple functions required for FM demodulation, including the RF amplifier, mixer, and demodulator stages. The dual-conversion architecture enhances selectivity and sensitivity, allowing for better reception of weak signals and reducing interference from adjacent channels.

In this configuration, the first conversion stage typically utilizes a local oscillator to mix the incoming RF signal with a generated frequency, producing an intermediate frequency (IF) signal. The MC3363 specifically utilizes a 10.7 MHz IF, which is a standard frequency for FM receivers, facilitating compatibility with many existing FM broadcast systems.

The output from the IF stage is then processed to extract the audio signal. The demodulator within the MC3363 converts the modulated IF signal back into an audio format that can be amplified. The audio output is routed to IC4, which functions as a power amplifier. IC4 is responsible for driving a small speaker, thus enabling audio playback of the received FM signal.

This design not only provides a compact solution for FM reception but also ensures efficient power usage and ease of integration into various applications, such as portable radios, automotive audio systems, or other consumer electronics requiring FM functionality. The inclusion of the MC3363 and a dedicated power amplifier allows for a robust and reliable audio output, making it suitable for various listening environments. Using a Motorola MC3363 LSI one-chip FM receiver, the circuit is a dual-conversion FM receiver with a 10.7-MHz IF chain. IC4 provides power to drive a small speaker.