Assume we have 6 data (digital) channels, each transmitting at Mbps. The input data for each channel is modulated to analog sigral using 32-QAM technique, and then fed into an FDM multiplexer. The FDM multiplexer combines the input signals into a shared satellite link with no guard bands between the channels. The satellite occupies a bandwidth starting at 1000 MAX, and is divided equally between the input channels where the carrier frequency for each channel is assigned at the middle of its sub bandwidth Answer the following questions (note: use 4 digits after the decimal point if it is needed in any part) 1) What is the bandwidth dedicated to each channel? MHZ 2) What is the total bandwidth of the satellite link? MHZ 3) What is the carrier frequency of third channel? MHZ . 37 What is the carrier frequency of last channel? MHz MI 5) If a guard band of 100 KHZ is used in FDM process, what is the required bandwidth of the satellite link? Assume we have 6 data (digital) channels, each transmitting at Mbps. The input data for each channel is modulated to analog sigral using 32-QAM technique, and then fed into an FDM multiplexer. The FDM multiplexer combines the input signals into a shared satellite link with no guard bands between the channels. The satellite occupies a bandwidth starting at 1000 MAX, and is divided equally between the input channels where the carrier frequency for each channel is assigned at the middle of its sub bandwidth Answer the following questions (note: use 4 digits after the decimal point if it is needed in any part) 1) What is the bandwidth dedicated to each channel? MHZ 2) What is the total bandwidth of the satellite link? MHZ 3) What is the carrier frequency of third channel? MHZ . 37 What is the carrier frequency of last channel? MHz MI 5) If a guard band of 100 KHZ is used in FDM process, what is the required bandwidth of the satellite link