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For more course tutorials visit<br>www.uophelp.com<br><br>ECET 310 Week 1 Homework 1_1<br>ECET 310 Week 1 Homework 1_2<br>ECET 310 Week 2 Assignment Homework 2_1<br>ECET 310 Week 2 Assignment Homework 2_3<br>ECET 310 Week 3 Assignment Homework 3_1<br>ECET 310 Week 3 Assignment Homework 3_2<br>ECET 310 Week 5 Assignment Homework 5_1<br>ECET 310 Week 7 Homework 7_1<br><br><br>
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ECET 310 Expect Success/uophelp.com For more course tutorials visit www.uophelp.com
ECET 310 Expect Success/uophelp.com ECET 310 Entire Course (Devry) For more course tutorials visit www.uophelp.com 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
ECET 310 Expect Success/uophelp.com ECET 310 Week 1 Homework 1_1 (Devry) For more course tutorials visit www.uophelp.com Computer Science - General Computer Science 1. Add: (a) 60 dB + 25 dB= (b) 20 dBW + 5 dBW= (c) 22 dB - 4 dB=
ECET 310 Expect Success/uophelp.com ECET 310 Week 1 Homework 1_2 (Devry) For more course tutorials visit www.uophelp.com 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).
ECET 310 Expect Success/uophelp.com ECET 310 Week 2 Assignment Homework 2_1 (Devry) For more course tutorials visit www.uophelp.com 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
ECET 310 Expect Success/uophelp.com ECET 310 Week 2 Assignment Homework 2_2 (Devry) For more course tutorials visit www.uophelp.com 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
ECET 310 Expect Success/uophelp.com ECET 310 Week 2 Assignment Homework 2_3 (Devry) For more course tutorials visit www.uophelp.com 1. The bandwidth of a series resonant circuit is 400 Hz. (a) If the resonant frequency is 4000 Hz, find Q. (b) If Ω, 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.
ECET 310 Expect Success/uophelp.com ECET 310 Week 3 Assignment Homework 3_1 (Devry) For more course tutorials visit www.uophelp.com 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
ECET 310 Expect Success/uophelp.com ECET 310 Week 3 Assignment Homework 3_2 (Devry) For more course tutorials visit www.uophelp.com 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.
ECET 310 Expect Success/uophelp.com ECET 310 Week 4 Assignment Homework 4_1 (Devry) For more course tutorials visit www.uophelp.com 1. 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.
ECET 310 Expect Success/uophelp.com ECET 310 Week 5 Assignment Homework 5_1 (Devry) For more course tutorials visit www.uophelp.com 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
ECET 310 Expect Success/uophelp.com ECET 310 Week 6 Assignment Homework 6_1 (Devry) For more course tutorials visit www.uophelp.com 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?
ECET 310 Expect Success/uophelp.com ECET 310 Week 7 Homework 7_1 (Devry) For more course tutorials visit www.uophelp.com 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:
ECET 310 Expect Success/uophelp.com For more course tutorials visit www.uophelp.com