Hi,
I want to design "AM modulation transmitter and receiver"
All the system (transmitter and receiver equipments) will be supplied by a symmetrical ±12-V power supply voltage.
Block Diagram of the Transmitter Equipment to Be Designed
1.1 - An audio amplifier. This circuit amplifies the audio or voice signal provided by a microphone or CD player.
1.2 - A low-pass filter. It must limit (cut-off) the band of the signal provided by the microphone (information signal) to 4.5 kHz. It has to be a filter with a Butterworth approximation and following specifications:
• Maximum band-pass frequency (fP): 4.5 kHz.
• Minimum band-stop frequency (fA): 13.5 kHz.
• Minimum band-stop attenuation (Amin): 40 dB.
1.3 - A carrier generator. It has to generate the sinusoid waveform carrier with a 10-V amplitude and a frequency comprised between 80 kHz and 100 kHz.
1.4 - A DSB-LC AM modulator. It has to take the 4.5-kHz band modulating signal (audio information) and modulate the sinusoidal carrier (There are different kinds of AM modulations. However, in this case, the design has to consider a DSBLC (double side band with large carrier) AM modulation.).
1.5 - A line amplifier. This circuit amplifies the modulated signal provided by the AM modulator in order to send it by the transmission line(In this case, the transmission line will be a simple copper wire.).
Block Diagram of the Receiver Equipment to Be Designed.
2.1 - A DSB-LC AM demodulator. It has to take the modulated signal from de
transmission line and has to recover the original modulating information signal(In this case, a simple diode demodulator is not allowed. You have to use a synchronous or coherent demodulator.) (If you need the sinusoid waveform carrier in the receiver equipment, you can use the same carrier signal that is provided in the transmitter equipment.).
2.2 - An audio preamplifier. Together with the volume control potentiometer, this circuit will adjust the level of the audio or voice signal.
2.3 - A power amplifier. This circuit amplifies the power of the demodulated audio signal provided by the audio preamplifier and has to apply it to an 8-Ω loudspeaker. Notice that this loudspeaker is a low impedance load for the power amplifier. The minimum value of the output power has to be 3 W.
Can I help design it?
I want to design "AM modulation transmitter and receiver"
All the system (transmitter and receiver equipments) will be supplied by a symmetrical ±12-V power supply voltage.
Block Diagram of the Transmitter Equipment to Be Designed
An externally hosted image should be here but it was not working when we last tested it.
1.1 - An audio amplifier. This circuit amplifies the audio or voice signal provided by a microphone or CD player.
1.2 - A low-pass filter. It must limit (cut-off) the band of the signal provided by the microphone (information signal) to 4.5 kHz. It has to be a filter with a Butterworth approximation and following specifications:
• Maximum band-pass frequency (fP): 4.5 kHz.
• Minimum band-stop frequency (fA): 13.5 kHz.
• Minimum band-stop attenuation (Amin): 40 dB.
1.3 - A carrier generator. It has to generate the sinusoid waveform carrier with a 10-V amplitude and a frequency comprised between 80 kHz and 100 kHz.
1.4 - A DSB-LC AM modulator. It has to take the 4.5-kHz band modulating signal (audio information) and modulate the sinusoidal carrier (There are different kinds of AM modulations. However, in this case, the design has to consider a DSBLC (double side band with large carrier) AM modulation.).
1.5 - A line amplifier. This circuit amplifies the modulated signal provided by the AM modulator in order to send it by the transmission line(In this case, the transmission line will be a simple copper wire.).
Block Diagram of the Receiver Equipment to Be Designed.
An externally hosted image should be here but it was not working when we last tested it.
2.1 - A DSB-LC AM demodulator. It has to take the modulated signal from de
transmission line and has to recover the original modulating information signal(In this case, a simple diode demodulator is not allowed. You have to use a synchronous or coherent demodulator.) (If you need the sinusoid waveform carrier in the receiver equipment, you can use the same carrier signal that is provided in the transmitter equipment.).
2.2 - An audio preamplifier. Together with the volume control potentiometer, this circuit will adjust the level of the audio or voice signal.
2.3 - A power amplifier. This circuit amplifies the power of the demodulated audio signal provided by the audio preamplifier and has to apply it to an 8-Ω loudspeaker. Notice that this loudspeaker is a low impedance load for the power amplifier. The minimum value of the output power has to be 3 W.
Can I help design it?