A signal π₯(π‘) has a bandwidth 2π΅ about a carrier frequency of ππ = 2 GHz as shown in Figure (a) below. In order to demodulate this signal
Q. A signal π₯(π‘) has a bandwidth 2π΅ about a carrier frequency of ππ = 2 GHz as shown in Figure (a) below. In order to demodulate this signal, it is first mixed (multiplied) with a local oscillator of frequency ππΏπ = 1.5 GHz, and then passed through an ideal low-pass filter (LPF) with a cut-off frequency of 2.8 GHz. The output of the LPF is sent to a digitizer ADC with a sampling rate of 1.6 GHz as shown in Figure (b) below. The maximum value of π΅ so that the signal π₯(π‘) can be reconstructed from its samples according to the Nyquist sampling theorem isΒ Β Β Β Β Β Β MHz.
Ans: 300
Sol:
2B β€ 0.6 GHz
B = 0.3 GHz
Bmax = 0.3 GHz
= 300 MHz