Advertisements
Advertisements
प्रश्न
An audio signal is modulated by a carrier wave of 20 MHz such that the bandwidth required for modulation is 3 kHz. Could this wave be demodulated by a diode detector which has the values of R and C as
- R = 1 kΩ, C = 0.01 µF.
- R = 10 kΩ, C = 0.01 µF.
- R = 10 kΩ, C = 0.1 µF.
उत्तर
`f_m = 1.5 kHz, 1/f_m = 0.7 xx 10^-3 s`
`f_c = 20 MHz, 1/f_c = 0.5 xx 10^-7 s`
i. RC = `10^3 xx 10^-8 = 10^-5 s`
So, `1/f_c` << `RC < 1/f_m` is satisfied
So it can be demodulated.
ii. RC = `10^4 xx 10^-8 = 10^-4 s`
Here too `1/f_c` << `RC < 1/f_m`
So this too can be demodulated
iii. RC = `104 xx 10^-12 = 10^-8 s`
Here `1/f_c > RC`, so this cannot be demodulated.
APPEARS IN
संबंधित प्रश्न
Explain the terms Attenuation used in Communication System.
Write the functions of the following in communication systems:
Transmitter
Write the functions of the following in communication systems:
Modulator
Write the functions of the following in communication systems:
Receiver
Explain the terms Demodulation used in Communication System.
Distinguish between broadcast mode and point-to-point mode of communication and give one example for each.
Distinguish between point to point and broadcast modes of communication. Give an example of each.
Write the function of receiver in communication system.
A 1 KW signal is transmitted using a communication channel which provides attenuation at the rate of – 2dB per km. If the communication channel has a total length of 5 km, the power of the signal received is `["gain in dB" = 10 log ("P"_0/"P"_"i")]`
Audio sine waves of 3 kHz frequency are used to amplitude modulate a carrier signal of 1.5 MHz. Which of the following statements are true?
- The sideband frequencies are 1506 kHz and 1494 kHz.
- The bandwidth required for amplitude modulation is 6 kHz.
- The bandwidth required for amplitude modulation is 3 MHz.
- The side band frequencies are 1503 kHz and 1497 kHz.
