Laboratory Information
Regulations: Lab Info and Regulations
Standard Cover Page: Standard_Cover_Page_Assignments.pdf

Formal Report
Formal report writing guidelines: Formal Report Guidelines.pdf
IEEE reference citation format:ieeecitationref.pdf

Agilent 2000 Series Digital Oscilloscope Manual (5.444 MB)

Experiment 1: Spectral Analysis
Objective: In this experiment you will learn how to use a spectrum analyzer by working with periodic (sine, square and triangular) waveforms. You will observe how waveform parameters affect the spectra of corresponding waveforms and verify time/frequency scaling properties of the Fourier transform using a rectangular pulse. You will use spectral analysis to identify non-linear systems.
Description and Procedures: Exp1 Spectral Analysis F2015.pdf
Matlab/Simulink Files: Exp1_C1.slx, Exp1_C2.slx
Oscilloscope Setup Files: exp1setupB.scp, exp1setupA.scp, exp1setupC.scp
Complete Package: Experiment1.zip

Experiment 2: Amplitude Modulation and Demodulation
Objective: In this experiment you will generate AM signals, study their time- and frequency-domain characteristics, and measure their modulation indices. You will investigate the use of envelope and coherent detectors in demodulating AM signals.
Description and Procedures: Exp2 Amplitude Modulation and Demodulation W2015.pdf
Matlab/Simulink Files: All Matlab/Simulink files required for Experiment 2 are directly accessible on computers connected to departmental network. In case you need to copies of them: Exp2_Setup.m, Exp2_EnvelopeDetectionRectifier.slx, Exp2_EnvelopeDetectionHilbert.slx, Exp2_EnvelopeAndCoherent.slx
Oscilloscope Setup Files: e2setupAB.scp, e2setupC.scp
Complete Package: Experiment2.zip

Experiment 3: Frequency Modulation and Demodulation
Objective: Frequency modulation (FM) is a nonlinear modulation technique where the modulating signal varies the instantaneous frequency of the carrier wave. In this experiment you will generate FM signals and study their frequency-domain characteristics. You will examine the operational properties of a phase-locked loop (PLL) and use it to demodulate FM signals.
Description and Procedures: Exp3 Frequency Modulation and Demodulation W2015.pdf

Oscilloscope Setup Files: e3setupD3.scp, e3setupD2.scp, e3setupC.scp, e3setupA.scp

Experiment 4: Software Defined Radio Experiment
Objective: This experiment explores the basic Software Defined Radio architecture which combines elements of wideband radio hardware and digital signal processing. We will use a hardware front end together with Matlab/Simulink to receive and demodulate AM and FM signals in real-time.
Description and Procedures: Exp4 Software Defined Radio W2015.pdf
Oscilloscope Setup Files: None.
Matlab/Simulink Files: All Simulink model files are directly accessible from departmental computers.