EE 382
LAB 6: AM Modulators Simulation
#student 1
#student 2
#Date
Objective
To generate Amplitude modulation waveforms using
o Ideal Modulator
o Square Law Modulator
o Gated Modulator
o Balance Modul
EE 382
LAB 6: AM DeModulators Simulation
#student 1
#student 2
#Date
Objective
To generate Amplitude demodulation waveforms using
o Ideal Coherent Demodulator
o Square Law Demodulator
o Gated Demodula
California State University Long Beach
EE 382 L
Professor: Chit-Sang Tsang
Lab#: 6
AM Modulators Simulation
Date: 11/26/2013
Group Member Names:
Gianfranco Parreno (010451257)
Jonathan Guerrero (00761
EE 382
LAB 3: Amplitude Modulation Signal
#student 1
#student 2
#Date
Objective
To understand the concept of Amplitude modulation of a signal.
To write a MATLAB program to plot the magnitude Fourier s
EE 382 Communications Systems I
Fall 2013
Professor: Chit-Sang Tsang
Lab # 5 - Linear Time-Invariant Filtering
Date: 11/13/2013
By
Gianfranco Parreno
Jonathan Guerrero
OBJECTIVE
To find the output of
EE 382
LAB 2: Fourier Transform of signals
#student 1
#student 2
#Date
Objective
To understand the concept of Fourier transform of a signal.
To write a MATLAB program which illustrates the calculation
CALIFORNIA STATE UNIVERSITY LONG BEACH
Department of Electrical Engineering
EE 382 Communication Systems
Lab 4: Fourier Series Analysis
Dr. Chit-Sang Tsang
Mohammed Alluhaydan
Thien Le
Ricky Ellis
Fai
EE 382
LAB 4: Fourier Series Analysis
#student 1
#student 2
#Date
Objective
To understand the concept of Fourier series of a periodic signal.
To write a MATLAB program to calculate the Fourier coeffic
EE 382
LAB 1: Decomposition of Signal in Fourier Series Components
#student 1
#student 2
#Date
Objective
To understand the concept of Fourier series of a periodic signal
To write a MATLAB program whic
LAB Project #6 EE380
Name:
SID:
Objective:
Part-1
1 Commercial fishermen in Alaska catch all they can of a particular species during a
restricted season of a few weeks. Schools of fish move, so the fi
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Basic Electrical Measurements
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Measurement and Electronic Instrumentation
Tutorial Questions on Module 2
1.
A PMMC instrument with a 300-turn coil has a magnetic flux density in its air gaps of
B = 200 mT. The coil dimensions are D
Measurement and Electronic
Instruments (EE 21004)
Dr. Nirmalya Ghosh
Electrical Engineering, IIT Kharagpur
Figures Courtesy:
"Electronic Instrumentation and Measurements 3rd Edition" book by David A.
Measurement and Electronic
Instruments (EE 21004)
Dr. Nirmalya Ghosh
Electrical Engineering, IIT Kharagpur
Figures Courtesy:
"Electronic Instrumentation and Measurements 3rd Edition" book by David A.
Measurement and Electronic Instrumentation
Tutorial Questions on Module 2
1.
A PMMC instrument with a 300-turn coil has a magnetic flux density in its air gaps of
B = 200 mT. The coil dimensions are D
Department of Electrical Engineering, IIT Kanpur ESc 201: Introduction to Electronics
3rd October, 2016
Home Assignment 9
1.
For the circuits shown in Fig. 1, determine v o in terms of v i . Assume th
Department of Electrical Engineering, IIT Kanpur ESc 201: Introduction to Electronics
3rd October, 2016
Home Assignment 10
1.
An Instrumentation Amplifier is shown in Fig. 1. If = + . () and =
. (),
Department of Electrical Engineering, IIT Kanpur
ESc 201: Introduction to Electronics
25th September, 2016
Home Assignment 8
1. For the circuit shown in Fig. 1, determine the labeled node voltages. Th
Department of Electrical Engineering, IIT Kanpur
Esc 201: Introduction to Electronics
3 August, 2016
Home Assignment 1
1. In the circuit given in Fig. 1 use nodal analysis to find the value of k that
Department of Electrical Engineering, IIT Kanpur
Esc 201: Introduction to Electronics
6th August, 2016
Home Assignment - 2
1. Obtain the Thevenin equivalent circuit at terminal a-b of the network show