Signals and Systems

Lectures:

  1. Introduction to Signals & Systems. Classification of Signals. Harmonic Signals.
  2. Continuous-Time Periodic Signals. Non-harmonic signals. The Fourier Series.
  3. Continuous-Time Aperiodic Signals. The Fourier Transform.
  4. Properties of the Fourier Transform.
  5. Classification of Systems. Description of Linear Time-Invariant Systems: differential equation, impulse response, transfer function. The Laplace Transform.
  6. Description of Linear Time-Invariant Systems: step response, frequency response.
  7. Applications of LTI Systems.
  8. Bode Plots.
  9. Discrete-Time Periodic Signals. Discrete-Time Aperiodic Signals.
  10. Description of Discrete Linear Time-Invariant Systems: difference equation, unit impulse response, transfer function.
  11. Signals Sampling. Spectral Analysis of Sampled Signals. Reconstruction of Continuous-Time Signals.
  12. Amplitude Modulation. Special Amplitude Modulation Procedures.
  13. Phase and Frequency Modulation.
  14. Review. Preparation for examination.

Support material

ENG

Laboratory Classes:

  1. Introduction of the Analog Discovery Board.
  2. Spectrum of Periodic Time-Continuous Signals.
  3. Spectrum of Aperiodic Time-Continuous Signals.
  4. First order Systems.
  5. Sampled Signals.
  6. Amplitude and Frequency Modulated Signals.
  7. Lab recovery of laboratory activity.

Support material for laboratory work:

ENG

OrCAD libraries:

biblioteca_tesem
biblioteca_camp

Seminary Classes:

  1. Introduction to Signals & Systems. Complex Numbers. Harmonic and Non-Harmonic Signals.
  2. Spectra of Periodic Time-Continuous Signals.
  3. Spectra of Aperiodic Time-Continuous Signals.
  4. Linear Invariant Systems.
  5. Bode Plots.
  6. Spectra of Discrete-Time Signals. Sampled Signals.
  7. Modulated Signals.