For a 500 W carrier modulated to a depth of 80%, find the total power and % of P.S in each of the following form of AM. 1.)DSB 3. If a transmitter power of 100 W is sufficient for reliable communication over a certain path using SSB, approximately what power level would be required using the H3E. 4. A filter-type SSB generator uses an ideal bandpass filter with a center frequency of 5 MHz and a bandwidth of 2.7 kHz. What frequency should be used for the carrier oscillator if the generator is to produce a LSB signal with a baseband frequency response having a lower limit of 280 Hz.
For a 500 W carrier modulated to a depth of 80%, find the total power and % of P.S in each of the following form of AM. 1.)DSB 3. If a transmitter power of 100 W is sufficient for reliable communication over a certain path using SSB, approximately what power level would be required using the H3E. 4. A filter-type SSB generator uses an ideal bandpass filter with a center frequency of 5 MHz and a bandwidth of 2.7 kHz. What frequency should be used for the carrier oscillator if the generator is to produce a LSB signal with a baseband frequency response having a lower limit of 280 Hz.
Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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For a 500 W carrier modulated to a depth of 80%, find the total power and % of P.S in each of the following form of AM.
1.)DSB
3. If a transmitter power of 100 W is sufficient for reliable communication over a certain path using SSB, approximately what power level would be required using the H3E.
4. A filter-type SSB generator uses an ideal bandpass filter with a center frequency of 5 MHz and a bandwidth of 2.7 kHz. What frequency should be used for the carrier oscillator if the generator is to produce a LSB signal with a baseband frequency response having a lower limit of 280 Hz.
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