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Signals and Systems Lecture 18

Signals and Systems Lecture 18. The Magnitude-Phase Representation of FT The Magnitude-Phase Representation of the Frequency Response of LTI Systems Time-Domain Properties of Ideal Filter Time-Domain Properties and Frequency-Domain of Nonideal Filter.

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Signals and Systems Lecture 18

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  1. Signals and SystemsLecture 18 The Magnitude-Phase Representation of FT The Magnitude-Phase Representation of the Frequency Response of LTI Systems Time-Domain Properties of Ideal Filter Time-Domain Properties and Frequency-Domain of Nonideal Filter

  2. Chapter 6 Time and Frequency Characterization ——Magnitude ——Energy-Density ——Phase §6.1 The Magnitude-Phase Representation ( 幅度-相位) of the Fourier Transform

  3. Chapter 6 Time and Frequency Characterization The magnitude |X(jω)| (or |X(ejω)|) describes the relative magnitude of the individual frequency components that make up the signal.

  4. Chapter 6 Time and Frequency Characterization -1 0 1 ω -11 -10 –9 0 9 10 11 ω

  5. Chapter 6 Time and Frequency Characterization The phase angle ∠X(jω) provide the relative phase information of the frequency components.

  6. Chapter 6 Time and Frequency Characterization The auditory system is relative insensitivity to phase, but the phase information is important in representing images. A black-and-white picture Figure 6.2

  7. Chapter 6 Time and Frequency Characterization

  8. Chapter 6 Time and Frequency Characterization

  9. Chapter 6 Time and Frequency Characterization

  10. Chapter 6 Time and Frequency Characterization ——Gain ——Phase Shift §6.2 The Magnitude-Phase Representation of the Frequency Response of LTI Systems

  11. Chapter 6 Time and Frequency Characterization §6.2.1 Linear and Nonlinear Phase 1. Linear Phase

  12. Chapter 6 Time and Frequency Characterization 2. Nonlinear Phase

  13. Chapter 6 Time and Frequency Characterization §6.2.2 Group delay (群延时) Consider a narrowband signal 窄带信号 α——Group delay at ω=ω0 The Group Delay at each frequency

  14. Chapter 6 Time and Frequency Characterization Example:

  15. Chapter 6 Time and Frequency Characterization Log-Magnitude and Bode Plots

  16. Chapter 6 Time and Frequency Characterization Log-Magnitude and Bode Plots

  17. Chapter 6 Time and Frequency Characterization §6.3 Time-Domain Properties of ideal Frequency-Selective Filters All-pass system with linear phase

  18. Chapter 6 Time and Frequency Characterization overlap §6.4 Time-Domain and Frequency-Domain Aspects of Nonideal filters 1. Gradual transition from passband to stopband. 2. The step response approaches a constant value without oscillations. • When filtering is to be carried out in real time, causality • is a necessary constraint. 4. In many contexts, we just need a simple filter.

  19. Chapter 6 Time and Frequency Characterization Passband ripple Magnitude Transition Stopband ripple Passband Stopband overshoot The unit response Rise time Setting time Nonideal Filter

  20. Chapter 6 Time and Frequency Characterization Homework: 6.5 6.23

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