Electronic applications
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Contents

  • Introduction
  • Learning outcomes
  • 1 Electronics everywhere
    • 1.1 Three key subsystems
  • 2 Signal processing
    • 2.1 Frequency-dependent gain
    • 2.2 Gain functions of ideal filters
    • 2.3 Types of interference
    • 2.4 First-order filters
    • 2.5 Normalised first-order low-pass filters
    • 2.6 The full Bode plot: gain and phase
    • 2.7 Chebyshev and Butterworth filters
  • 3 Digital signal processing
    • 3.1 Digital filters
    • 3.2 Characteristics of discrete-time and continuous-time signals
    • 3.3 Sampling a continuous-time signal
    • 3.4 Quantisation of a signal
    • 3.5 Digital filtering in the time domain
    • 3.6 Designing a digital filter in the frequency domain
    • 3.7 Fourier transforms and the sinc pulse
    • 3.8 A low-pass filter design
    • 3.9 Digital filtering in practice
    • 3.10 Adding noise
    • 3.11 Changing the decision level
    • 3.12 Applying the FIR filter
  • Conclusion
  • Glossary
  • References
  • Acknowledgements

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