CH1 |
Introduction
How communication systems work Frequency allocation and propagation characteristics Information measure |
CH2 |
Signals and Spectra ( Review )
Basic signal properties (dc, rms, dBm, and power) Fourier transform and spectra Linear systems and linear distortion Bandlimited signals and sampling Bandwidth of signals |
CH3A |
Baseband pulse and digital signaling
Analog-to-digital signaling (PCM) Binary and multilevel digital signals Spectra and bandwidths of digital signals |
CH3B |
Baseband pulse and digital signaling
Prevention of intersymbol interference BTime division multiplexing |
CH4 |
Bandpass signaling principles and circircuits
Complex envelopes and modulated signals Spectral of bandpass signals |
CH5A |
AM, PM, and digital modulated systems
Amplitude modulation and single sideband Frequency and phase modulation |
CH5B |
AM, PM, and digital modulated systems
Digitally modulated signals: OOK, BPSK, FSK, MPSK, QAM, QPSK, MSK |
CH6 |
Random Processes and Spectral Analysis Matched filters
|
CH7A |
performance of communication systems corrupted by noise
Bit error rate for coherent binary systems: unipolar, polar, bipolar, OOK, BPSK, FSK |
CH7B |
performance of communication systems corrupted by noise
Non-coherent binary systems OPSK and MSK Comparison of Digital signaling systems Output SNR of PCM |
CH7C |
performance of communication systems corrupted by noise
Output SNR for analog systems: AM, SSB, PM, and FM |