Title: ECET 310 Read, Lead, Succeed/uophelpdotcom
1ECET 310 Read, Lead, Succeed/uophelpdotcom
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2ECET 310 Entire Course (Devry)
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- ECET 310 Week 1 Homework 1_1
- ECET 310 Week 1 Homework 1_2
- ECET 310 Week 2 Assignment Homework 2_1
- ECET 310 Week 2 Assignment Homework 2_3
- ECET 310 Week 3 Assignment Homework 3_1
- ECET 310 Week 3 Assignment Homework 3_2
- ECET 310 Week 5 Assignment Homework 5_1
- ECET 310 Week 7 Homework 7_1
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3ECET 310 Week 1 Homework 1_1 (Devry)
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- Computer Science - General Computer Science
- 1. Add
- (a) 60 dB 25 dB
- (b) 20 dBW 5 dBW
- (c) 22 dB - 4 dB
- 2. Convert
- (a) 65 W into dB
- (b) 10 dB into watts
- (c) 5 dB into watts .
- (d) 30 dBm into dBrn
- (e) 15 dBrn into dBm
- 2. A three-stage amplifier is shown with power
gains. Calculate total power gain in decibels,
and as a number - 3. (a) Determine the overall power gain.
- b) Find the output power if Pin 15 mW
- 4. If Pin -20 dBm, determine the output power
in dBm and watts - 5. Determine
4ECET 310 Week 1 Homework 1_2 (Devry)
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- 1 . Four frequencies are applied at the input of
a non-linear amplifier. Write down all of the
frequency components at the output of the
non-linear device. Write down only the first
three harmonics. - 2. Find out the frequency components at the
output of a resonant-tuned circuit tuned at 1200
KHz with a bandwidth of 15 KHz and connected at
the output of a non-linear amplifier (mixer). -
5ECET 310 Week 1 Homework 1_2 (Devry)
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- 1 . Four frequencies are applied at the input of
a non-linear amplifier. Write down all of the
frequency components at the output of the
non-linear device. Write down only the first
three harmonics. - 2. Find out the frequency components at the
output of a resonant-tuned circuit tuned at 1200
KHz with a bandwidth of 15 KHz and connected at
the output of a non-linear amplifier (mixer). -
6ECET 310 Week 2 Assignment Homework 2_1 (Devry)
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- 1. Assume that a receiver has a first amplifier
stage with a 5KW input resistance, a gain of 300,
an input audio signal of 20 mV, and an operating
temperature of 27oC. When the amplifier is
operating with a bandwidth first of 10 MHz, find - (a) therms input noise levels
- (b) the audio output levels
- the rms output noise levels
- 2. We have an amplifier with a 1 MHz bandwidth
and a 20 mV input signal. The input mV, output
mV, and output mV. - Find
- (a) SNR at the input
- (b) SNR at the output
- Noise figure
- 3. An FM receiver has at the input and at the
output. - Calculate the receivers noise figure in dBs.
-
7ECET 310 Week 2 Assignment Homework 2_2 (Devry)
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- 1. fCUTOFF 130 KHz
- Sec? T 25
-
- Draw the frequency spectrum of the output of the
low pass filter. - 2. Draw the frequency spectrum of the output if
the filter is 14 marks -
- A high pass filter
fC 20 KHz
8ECET 310 Week 2 Assignment Homework 2_3 (Devry)
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- 1. The bandwidth of a series resonant circuit is
400 Hz. - (a) If the resonant frequency is 4000 Hz, find
Q. - (b) If O, what is the value of XL at resonance?
- Find the inductance L and capacitance C of the
circuit. -
- 2. The frequency response curve for an RLC
circuit is shown in the diagram. - (a) Determine Q and bandwidth for the frequency
response curve shown. - (b) For µF, determine L and R for the resonant
circuit. - Determine the applied voltage.
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9ECET 310 Week 3 Assignment Homework 3_1 (Devry)
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- 1. An AM signal has an unmodulated carrier
voltage VC 10VP, a load resistance of RL
10, and a modulation index of m 1.
Determine - Modulation
- (a) PC Vc2/2/2(10)
- PSB PT-PC/2
- (b) Total power in the AM signal
- 2. Find the modulation index corresponding to
the given trapezoidal pattern for the AM signal. - 3. You are tuned to an AM station at 1200 KHz.
Write down the frequency components of the
received AM signal. - 4. Draw an AM signal for the given conditions
- (a)
10ECET 310 Week 3 Assignment Homework 3_2 (Devry)
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- 1. Draw the frequency spectrum at the output of
the first balanced modulator. - 2. If the filter is a low pass filter, draw the
frequency spectrum at the output of the filter
and amplifier - 3. Draw the frequency spectrum at the output of
the second balanced modulator. - 4. If the filter is a low pass filter, draw the
frequency spectrum at the output of the filter
and linear power amplifier. - 5. Find the value for the required Q for the
first filter. - 6. Find the value for the required Q for the
second filter -
11ECET 310 Week 4 Assignment Homework 4_1 (Devry)
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- . Define FM.
- 2. What parameter of the intelligence
signal causes frequency deviation of the carrier? - 3. What parameter of the intelligence
signal causes or determines the rate of carrier
frequency deviation? - 4. Define modulation index for FM.
- 5. What is the reason that FM requires
wider bandwidth as compared to AM? - 6. What characteristics of FM signal are
shown by Bessel Function Solution of FM signal? - 7. If you are tuned to an FM station at a
frequency of 100.1 MHz, show the bandwidth
allocation for two adjacent stations. - 8. What is the required BW to transmit an
FM signal if the maximum deviation is 60 KHz and
intelligence frequency is 15 KHz? -
12ECET 310 Week 5 Assignment Homework 5_1 (Devry)
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- 1. Determine the Nyquist sample rate for a
maximum analog input frequency of - (a) 4 KHz
- 10 KHz
- 2. Determine the dynamic range for a 10-bit
sign-magnitude PCM code. - 3. Determine the minimum number of bits required
in a PCM code for a dynamic range of 80 dB. What
is the coding efficiency? - 4. For a resolution of 0.04 V, determine the
voltages for the following linear seven- bit
sign magnitude PCM codes - 5. Determine the resolution and quantization
error for an eight-bit linear sign magnitude PCM
code for a maximum decoded voltage of 1.27 V
13ECET 310 Week 6 Assignment Homework 6_1 (Devry)
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- 1. For a 64-PSK modulator with an
input data rate(fb) equal to 36 Mbps and a
carrier frequency of 100 MHz, determine the
minimum double-sided Nyquist bandwidth(fN) and
the baud. Sketch the output spectrum. - 2. Determine the bandwidth efficiency
for the following modulators - (a) QPSK
- (b) 64-QPSK
- (c) 128-QAM
- 3. A radio channel has a bandwidth of 10
KHz and a SNR of 15 dB. What is the maximum
data rate that can be transmitted - (a) Using any system?
- (b) Using a code with 64 possible states?
- 4. A modulator transmits symbols, each
of which has 64 different possible states, 15,000
times per second. Calculate the baud rate and the
bit rate. - 5. What is the shannon limit for a standard
telephone circuit with an SNR of 30 dB
and a bandwidth of 3.3 KHz? - 6. What is the maximum data rate possible for a
standard telephone circuit with an - SNR of 1023 and BW of 3 KHz using 8 bits
per symbol?
14ECET 310 Week 7 Homework 7_1 (Devry)
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- 1. For a QPSK system and the given parameters,
determine - 2. Which system requires the highest Eb/No ratio
for a probability of error of 10-7, four-level
QAM or 8-PSK system? - 3. Determine the minimum bandwidth required to
achieve a P(e) of 10-4 for a 16-PSK system
operating at 25 Mbps with a carrier-to-noise
ratio of 10 dB - 4. A PCM-TDM system multiplexes 32 voice channels
each with a bandwidth of 0 Khz to 4 KHz. Each
sample is encoded with an 8-bit PCM code. UPNRZ
encoding is used. Determine - 5. Consider a PCM-TDM system in which 24 signals
are to be processed. Each signal has a baseband
bandwidth of 3 KHz. The sampling rate has to be
33.3 higher than the theoretical minimum, and 8
bits are to be used. Conventional NRZ-L encoding
format is used. An extra bit is added to each
frame for sync. Determine
15ECET 310 Read, Lead, Succeed/uophelpdotcom
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