• ECTS

    6 credits

  • Component

    Faculty of Science

Description

  • This teaching unit complements the basic training in analogue electronics with in-depth knowledge of signal filtering, amplification and modulation. This knowledge is essential for the understanding and realization of analog electronic systems in all fields of engineering sciences.
  • Teaching is organized in the form of lectures, tutorials and practical work opening the possibility of mini-projects.
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Objectives

Learn to design systems whose performance is independent of the components used.

Linking AOP performance to conditions of use.

Define the filter stage template and select the type and technology of filter components.

Understanding the PLL principle.

Basic knowledge of analog modulation and demodulation (amplitude and argument modulation).

Understand the principles of analog frequency shifting and mixing, and know the various possibilities for practical implementation.

Learn to analyze the operation of a complex linear circuit.

 

At the end of this course, students will be able to understand and design both a data transmission system and a complex analog electronic circuit.

 

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Necessary prerequisites

- Bachelor's degree in analog electronics.

 

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Syllabus

Program

  • Amplification, passive filters and active analog filters.

Real amplifiers, ideal feedback, non-ideal feedback.

Transfer function synthesis, Low-pass, High-pass, Band-pass, Band-reject real filter template.

Real filter response. Examples of transfer function synthesis.

Active filters, operational amplifiers, filter synthesis and cascading.

 

  • PLL

Analog PLL modeling.

Voltage-controlled oscillator. Phase comparator.

 

  • Modulations, communication systems

Amplitude modulation and demodulation, applications.

Frequency modulation and demodulation and applications.

Influence of noise on demodulation.

Frequency change and Image frequency.

 

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Further information

CM: 36H

TD : 6H

PRACTICAL WORK: 12H

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