Engineering Questions with Answers - Multiple Choice Questions

# MCQs on Single Sideband Modulation

1 - Question

The type of signal transmission in which no power is wasted on the carrier is known as ________
a) Amplitude modulation
b) Frequency modulation
c) Sideband suppressed carrier signal
d) Unsuppressed carrier

c
Explanation: In an SSB or single sideband signal, the carrier is suppressed leaving the upper and lower sidebands. The resulting signal is referred to as the sideband suppressed carrier signal and one of the major benefits of this type of signal is that no power is wasted on the carrier.

2 - Question

The spectrum space occupied by a DSB signal is the same as that of a conventional AM signal.
a) True
b) False

a
Explanation: DSB or double sideband suppressed carrier does not alter the maximum and minimum frequency of the signal. It only suppressed the carrier signal and hence the spectrum space which is dependent on frequency remains unchanged.

3 - Question

What is used to generate a DSB signal?
a) Balanced modulator
b) Carrier suppressor
c) Antimodulator
d) Sideband suppressor

a
Explanation: Balanced modulator is a special circuit which produces DSB or Double sideband suppressed carrier signals. It produces the sum or difference of the carrier and modulating signal but cancel or balance out the carrier frequency.

4 - Question

Which of the following is an advantage of SSB over DSB?
a) No change in spectrum space
b) Reduce in spectrum space
c) Carrier is suppressed
d) Power is not wasted on the carrier

b
Explanation: In a signal, only the sidebands contain the information. Also, there is a duplication of the information in each sideband. Thus one sideband is sufficient form transmission as compared to DSB where both the sidebands are present. Since one of the sideband is also suppressed it reduces the maximum or the minimum frequency of the signal and hence the spectrum space is reduced in an SSB.

5 - Question

SSB transmitters are lighter and require less power than their normal AM transmitters.
a) True
b) False

a
Explanation: In an SSB one of the sidebands is also suppressed with the carrier signal thus reducing wastage of power. Since less power and circuitry are required to run the SSB transmitter than its equivalent AM transmitter they are light and require less power.

6 - Question

a) Attenuator
b) Amplifier
c) Atmosphere
d) Antenna

c
Explanation: Since an AM signal is a combination of waves of different frequencies when it is passed through the atmosphere, they get affected by the ionosphere and the upper atmosphere which attenuate signals below the frequency of 50Hz. If one sideband is above 50Hz and the other one is below 50Hz the atmosphere attenuates one sideband alone. This is known as selective fading.

7 - Question

Why is no carrier signal transmitted when the amplitude of the modulating signal is 0 in an SSB transmission?
a) Attenuation
b) Undermodulation
c) No sideband is generated
d) All the sideband is suppressed

c
Explanation: In an SSB the carrier signal is suppressed. Also, only when a modulating signal is present the sideband is produced. When there is no modulating signal there is no sideband produced and the carrier is also suppressed hence nothing is transmitted.

8 - Question

Which one of the following is not true with respect to SSB signal?
a) Hard to demodulate
b) Less power
c) Carrier is suppressed
d) Very low range

a
Explanation: One of the main disadvantages of the sideband suppressed signal transmission is that it is hard to demodulate or recover. Since the carrier signal is not present, the carrier frequency must be fed into the receiver to completely extract the information signal.

9 - Question

The low power carrier transmitted with SSB signal is called as?
a) SSB carrier
b) Dummy carrier
c) Fake carrier
d) Pilot carrier

d
Explanation: Since demodulation is hard in SSB signals a low power carrier wave is transmitted with the SSB. This can be received and amplified at the receiving end to demodulate the SSB signal. This type is used in FM stereo transmissions.

10 - Question

What is the peak envelope power if the rms voltage is 127.26V across a 50Ω load?
a) 324W
b) 321W
c) 215W
d) 154W

a
Explanation:

11 - Question

What is the maximum current if the peak envelope power is 500W and the supply to the amplifier is 50V?
a) 10A
b) 10mA
c) 550A
d) 550mA

a
Explanation: PEP = Vs x Imax
Imax = PEP / Vs = 500/50 = 10A.

12 - Question

What is the PEP if the transmitter produces a peak to peak voltage of 178V across a 75Ω load?
a) 75.4W
b) 52.8W
c) 54.2W
d) 45.5W

b
Explanation:

13 - Question

What is the average power of the transmitter if PEP = 500W?
a) 0W to 500W
b) 100W to 300W
c) 125W to 166.66W
d) 0W to 250W

c
Explanation:

14 - Question

Which of the following is true with respect to the bandwidth of a 2kHz audio signal and a 2kHz binary data?
a) Bandwidth is higher for audio signals than binary data
b) Bandwidth is higher for binary data than audio signals
c) Bandwidth remains the same for both
d) Bandwidth keeps increasing with time for the binary data