QUESTION 5Select the correct statement(s) regarding amplitude modulation (AM).
a. If the AM Index is greater than 1 (i.e., µAM>1), then over modulation occurs leading to signal distortion |
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b. With AM, the message is captured as amplitude changes to the carrier’s amplitude. |
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c. The AM modulated signal bandwidth is dependent upon the highest frequency (fm), and frequency bandwidth, of the message |
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d. All of the above are correct |
QUESTION 6
True
False
QUESTION 8
a. s(t) = 3[1+1.08 cos(2π5500t)] cos(2π100E6t) |
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b.s(t) = 3[1+1cos(2π5500t)] cos(2π100E6t) |
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c.s(t) = 3[1+6.5 cos(2π3500t)] cos(2π100t) |
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d. s(t) = 6.5[1+0.93 cos(2π100t)] cos(2π100E3t) |
5:
d)All the above are correct
6)
False
This is because in AM baseband message is represented by carrier's
amplitude and not its frequency
7) b.s(t) = 3[1+1cos(2π5500t)] cos(2π100E6t)
modulated carrier signal is given by:
s(t) =[Ac +Am*cos(2*pi*fm*t)]*cos(2*pi*fc*t)
putting values:
s(t) = [3 + 3*cos(2*pi*5500)]cos(2*pi*100E6*t)
which is option b
QUESTION 5Select the correct statement(s) regarding amplitude modulation (AM). a. If the AM Index is greater...
Select the correct statement regarding the difference between
the FM modulated signal waveform and the AM modulated signal
waveform.
a. The FM signal wave changes frequency according to the message
wave m(t). The "peak" amplitude of the FM signal, Ac=5, remains
constant.
b. There is no difference between the FM and AM signal waves
because they are both modulated by the same message wave, m(t) =
Amcos(2πfmt)
c. The AM signal wave frequency changes with the message wave m(t)
while...
Question 4: (20 points) An FM signal is modulated with message m(t)Am cos(2Tmt). The measured amplitude spectrum, SPM(f), is shown below: Amplitude spectrum of the frequency modulated signal 2 -2 5000 4000 3000 2000 -1000 1000 2000 3000 4000 5000 frequency f [Hz] a) What is the carrier frequency fe? b) What is the message frequency fm c) What is the FM modulation index Bf? Is it a narrowband or a wideband signal? d) Using Carson's rule, estimate the transmission...
below is used to modulate a carrier to generate the AM signal yt) (Am()) cos(1000t) The periodic signal m() shown a) The power efficiency of the system is measured to be 1 () The type of AM modulation, i.e. SSB, DSBSC, (i) The constant A. (ili) The modulation index 1/13. Determine DSB with carrier enit -3 b) An angle modulated signal is given by d(t-2 cos (2n1061+ sin 2 1000). Find i) The carrier frequency. ii) The baseband signal bandwidth....
Please write clearly
Expert Q&A Done 6. (A) What is an amplitude modulation (AM)? [) A baseband message signal mt) is shown below. b shows the frequency spectrum of mýtj. A carrier signal cost was used in DSB-SC AM moduition of m/t). Describe how the modulated signal can be created (is) Draw the frequency spectrum of modulated signal. (iv) Describe how the message signal demodulated and recovered at the receiving side. (4 5 20 points)
Consider the following Amplitude Modulation (AM) signal given by Xc(t)=Ac[1 + μx(t)]cos(wct) where x(t) is the message signal, and μ the modulation index. Also consider the following message signal x(t) for parts (a) and (b)' shown in Fig 1. a) Provide a sketch of the AM signal when the modulation index μ < 1. b) Provide a sketch of the AM signal when the modulation index μ = 1. c) Provide a sketch of the AM signal when the modulation index μ > 1. d) If the bandwidth...
Consider frequency modulation with a sinusoidal message signal (tone modulation) m(t) = a cos(2πfmt). The modulated signal is: vFM(t) = Ac cos[2πfct + βf sin(2πfmt)]. with βf = kfa/fm being the modulation index. What is the bandwidth of the modulated signal.
Consider frequency modulation with a sinusoidal message signal (tone modulation) m(t) = a cos(2πfmt). The modulated signal is: vFM(t) = Ac cos[2πfct + βf sin(2πfmt)]. with βf = kfa/fm being the modulation index. What is the bandwidth of the modulated signal.
In frequency Modulation (FM), the instantaneous frequency of a
sinusoidal carrier wave will be modified proportionally to the
variation of amplitude of the message signal. Use Matlab to build
an FM modulation and demodulation process. The FM coefficient is
Kf=80, and the carrier frequency is 300Hz.
1. Generate a baseband signal as show below. Plot the baseband
signal in time domain and frequency domain. 2. Create an FM process and
plot the modulated signal in time and frequency domain.
-1...
In frequency Modulation (FM), the instantaneous frequency of a
sinusoidal carrier wave will be modified proportionally to the
variation of amplitude of the message signal. Use Matlab to build
an FM modulation and demodulation process. The FM coefficient is
Kf=80, and the carrier frequency is 300Hz.
1. Generate a baseband signal as show below. Plot the baseband
signal in time domain and frequency domain. 2. Create an FM process and
plot the modulated signal in time and frequency domain.
-1...
1.) Angle Modulation can be subdivided into phase modulation (PM) and frequency modulation (FM). Highlight the differences between FM and PM. What is meant by the term instantaneous frequency? 2.) Describe what is meant by the term "Zero-Crossings" of a FM or PM wave. 3.) Is PM and/or FM a linear modulation technique? Explain. 4.) Describe one important advantage that angle modulation has over amplitude modulation. Describe one distinct disadvantage that angle modulation has over amplitude modulation. 5.) Describe the...