A synchronous demodulator is a circuit used to recover the original baseband signal from a modulated carrier wave. It is specifically designed to demodulate signals that have been modulated using amplitude modulation (AM) or frequency modulation (FM). The process of demodulation involves extracting the information or data signal from the carrier signal, which is transmitted over a communication channel.
Here's a general overview of the operation of a synchronous demodulator:
Input Signal: The synchronous demodulator receives the modulated signal as its input. This signal is typically in the form of a carrier wave that has been modulated with the information signal. For example, in AM, the carrier amplitude varies based on the information signal, while in FM, the carrier frequency changes with the information signal.
Local Oscillator (LO): The synchronous demodulator has a local oscillator that generates a carrier signal at the same frequency as the carrier signal used during modulation. This local oscillator is perfectly synchronized with the received carrier signal.
Multiplication: The modulated signal and the locally generated carrier signal are multiplied together. This multiplication process is also known as mixing or heterodyning. It results in the creation of sum and difference frequencies.
Low-Pass Filter: After multiplication, the resulting signal contains both the sum and difference frequencies. The low-pass filter is used to filter out the high-frequency components (sum frequencies) and pass through the low-frequency components (difference frequencies). The low-pass filter's cutoff frequency is set to allow only the baseband signal (information signal) to pass through.
Demodulated Output: The filtered signal contains the original baseband signal (information signal), which is the desired output of the synchronous demodulator. At this stage, the carrier frequency and its modulation have been removed, and the recovered baseband signal can be further processed for display, recording, or any other application.
The key advantage of a synchronous demodulator is its ability to maintain phase synchronization with the carrier signal, which helps in accurately extracting the original baseband signal. However, one challenge with synchronous demodulation is that it requires precise synchronization between the local oscillator and the carrier signal. Any phase or frequency differences between the two can lead to errors in demodulation, so maintaining synchronization is crucial for proper operation.