$cope Baseband IN PSD SSB-SC Cosine Wave 1 m) clip Cosine Wave2 Scope Rx ollip LPF Carrier TX BPF Carrier Rx 2- Given Si
Posted: Wed Apr 27, 2022 5:48 pm
- Cope Baseband In Psd Ssb Sc Cosine Wave 1 M Clip Cosine Wave2 Scope Rx Ollip Lpf Carrier Tx Bpf Carrier Rx 2 Given Si 1 (107.38 KiB) Viewed 30 times
$cope Baseband IN PSD SSB-SC Cosine Wave 1 m) clip Cosine Wave2 Scope Rx ollip LPF Carrier TX BPF Carrier Rx 2- Given Signals and Parameters Your information signal m(t) is a summation of two cos waves with frequencies 200 rad/sec and 300 rad/sec. A transmitter and receiver block diagrams are given. 3- Requirements It is required to generate a lower sideband-suppressed carrier (LSB-SC) signal at the transmitter output at a carrier frequency of 1000 rad/sec. Also, it is required to correctly recover the signal m(t) at the receiver output (a) By doing the necessary calculations, find the bandwidth of the BPF and set it in the BPF block (lower passband and upper passband frequencies). (b) Find the carrier RX frequency and the bandwidth of the LPF and set the parameters of the Carrier RX block and LPF block (passband edge frequency) accordingly. (c) Run the simulation with the values you obtained in (b) and (c), then show the screenshots of: (1) BPF parameters, (2) LPF parameters, (3) output of the PSD SSB-SC, (4) Scope Baseband, and (5) Scope RX. (d) Set the frequency of the Carrier RX block to 1100 rad/sec and comment on the output you get in Scope RX compared with what you got in Part (c). Is there any difference? Why?