Time

10am - 10:50am

10am-10:50am

10am-10:50am

Month

Monday

Wednesday

Friday

Aug

(24) Lecture 1: First Day of Classes: Overview of syllabus, discussion of generic communication system.

(26) Lecture 2: C2: Overview modulation. Discuss basic usage of integration for comparison and time average of signals.

Aug/Sept

(29) Lecture 3: C2: Evaluate orthogonality, "dc", power and energy.

(31) Lecture: C2: Introduce FT and some of its properties. Present Duality, shifting, convolution, correlation and multiplication properties.

(2) Lecture: (section 2.3) Functions of the FT: Dirac Delta, unit step, sine waves, rectangle, Parsevals theorem.

HW#1: 2-2 dc, rms and power of a periodic wave, 2-18 Fourier Transform, 2-35 proofs of Fourier Xform multiplication rule, 2-39 FT multiplication rule. (covers sections 2.1-2.2 )

V1: Use MATLAB to determine and plot the magnitude of the FFT of a rectangle function, and a sine wave. The duty cycle of the rectangle function is about 1/10 and the discrete frequency of the sine wave should be k=4. Where we have cos(2 pi k / N) for a sequence length of N.

Other problems of interest:

2-2, 2-4, 2-18, 2-22, 2-35,2-39.

Sept

(5) Labor Day, NO CLASS

(7) Lecture: continue discussion of Fourier Transforms..

(9) Lecture: Continue FT: (sections 2.4-2.5) Orthogonal Series.

HW#2: 2-15 FT, 2-22 FT, 2-36 FT proof, 2-38 FT

Sept

(12) Lecture: Begin FS: (sections 2.4-2.5) Orthogonal and Fourier Series. (section 2.6) Linear Systems. Identity for getting PSD from Cn, Square Wave synthesis.

(14) V3 discussion, FS continued.

(16)  . Identity for getting PSD from Cn, Square Wave synthesis. Sampling Theory

HW #3: 2-46 Orthogonal Signals, 2-51 FS of periodic square wave, 2-62 FS and PSD analysis(use MATLAB to PLOT), 2-63 proof, 2-67 FT proof.

V3: Download and follow directions from V3 Word Doc. Process class data as a binary spread spectrum signal. (NO sharing code but you can talk about it all you want with other people).

Prob of interest: 2-49, 2-51,2-53, 2-61, 2-64,2-68, 2-69

Sept

(19) Waveform synthesis

(21) Lecture: Sampling Theory

(23) Lecture: Sampling Theory.

HW #4: 2-70 PSD, 2-81 Sampling, 2-83 DFT zero padding, 2-87 DFT of half wave rectify, 2-86 DFT.

Problems of interest: 2-54, 2-55, 2-81, 2-82,2-83, 2-84, 2-85, 2-86

Sept/Oct

(26) Lecture: DFT

(28) Lecture: Delta Modulation

(30)

HW #5: 3-2 Natural and Flat Top Sampling, 3-5 PAM, 3-49 Delta-mod, 3-54 TDM, 3-55 TDM.

Problems of interest: 3-2, 3-3, 3-4, 3-5, 3-6, 3-49, 3-50, 3-54, 3-55, 3-56, 3-57.

Oct

(3) Lecture: Integrate and Dump, Delta Modulation.

 Odds and ends of chapter 3: cosine rolloff, differential encoding, circular convolution

(5) NO CLASS: lgh at conference in DC

Lecture: DFT based convolution, circular and linear (zero padding).

(7) Fall Break, NO CLASS

Lecture: Equivalent Filtering and opamp filter design.

Oct

(10) Lecture: DSBSC modulation and demodulation.

(12)  Lecture: PLL

(14) Review for exam

HW#6: 4-1 Filter, 4-2 DSBSC, 4-4 BPF, 4-10 AM.

Problems of interest: 4-2,4-3, 4-4, 4-5, 4-6, 4-7,4-9,4-10, 4-11

Oct

(17)

(19) EXAM 1 WEDNSEDAY NIGHT, 7pm-9pm, Room 259 FPAT (AH), Crib sheet only, photocopy of FTs from Couch 6 text will be provided.) Covers HW #1, #2, #3, #4 and #5.

Lecture: Take problems for review for test.

 Lecture: Tie up Chapter 4.

 Lecture: Discussion of filter Design.

(21) AM and Superheterodyne Receiver

Oct

(24) Chapter 5: Discuss AM and SSB and IF.

(26) Quadrature  modulation, Quad detector.

(28)  Costas Receiver.

HW #7: 4-12 bandpass & quadrature mixing, 4-13 filter analysis, 4-25 PLL, 4-29 PLL.

Problems of interest: 4-12,4-14, 4-23, 4-24, 4-25, 4-26, 4-28, 4-29, 4-30, 4-40

Nov

(31) Filter Design

(2) Active Filter Design

(4) Lecture: VSB

HW#8: Form your groups, download last years baseline system and run the system. Send group name and members to LGH, and send project files to be run.

Nov

(7) Lecture: Hilbert transform, FM, wide band and narrow band.

(9) FM stereo and Composite TV

(11)  Binary Modulated BP signaling. Weavers method

HW #9: 5-6 AM, 5-7 DSBSC, 5-12 Weaver’s method of SSB, 5.18 SSB-AM.

Problems of interest: 5-5, 5-6, 5-7, 5-8, 5-10, 5-12, 5-18.

Nov

(14) Binary Modulated BP signaling, OOK, Carsons Rule and FSK

(16) FSK demodulation, BPSK, QAM, MSK

(18)

Nov

(21)

HW #10 5-27 FM, 5-31 PM carsons rule, 5-44 FM, 5-51 BPSK

Problems of interest: 5-26, 5-27, 5-29, 5-36, 5-41, 5-44, 5-50, 5-51, 5-52.

(23)  NO CLASS

(25) Thanks Giving break, No Class

Nov/Dec

(28)  Lecture: MSK, OFDM and DSSS methods

HW #9:5-60 BPSK design, MATLAB:  5-66, 5-69, 5-70, 5-71.

Problems of interest: 5-59, 5-66, and 5-75.

(30) Exam II

EXAM II, Wednesday, 7pm to 9:30pm, Open Book and Open Notes.

(2)  LASER QUEST Field Trip. Meet at 10am, play sample game at 10:25 and leave at 10:45am

Dec.

(5)  NO CLASS

Dead Week, Vestigial Sideband, Discussion of Final Project.

Final Project Preliminary Ranking: Send modulator, demodulator and detector.

(7)  NO CLASS

(10)  NO CLASS

ECE Day Event

Dec

(12) Finals Week

(14)

Thursday 12-15-05 Final Project Contest Ends at 9pm Thursday

(16)