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Objectives and competences

The objective of this course is for students to be able to use standard building blocks for implementation and analysis of electronic systems.

Content (Syllabus outline)

• Oscillators: basic structure and oscillation conditions, types of oscillators, accuracy, stability and precision, phase noise. • Data converters: fundamentals of analog to digital and digital to analog conversion, converter types, quantization noise, oversampling, monolithism, harmonic distortion, differential and integral nonlinearity. • Signal synthesisers: basic structure of phase loop, numerically controlled oscillators, phase to amplitude conversion, direct digital synthesiser. • Digital filtering: fundamentals of digital filters, linear differential equation, elements of digital filters, quantization, recursive and non-recursive form, z-transformation, zeros and poles, amplitude and phase response of ideal filters, linear phase response, digital resonator, inverse filter. • Design of digital filters with finite impulse response: use of discrete Fourier transformation, filters with linear phase, design methods, window functions, stability, filter order, band ripple, transition bandwidth, alternative windows, multiband filters, basic structures and implementations. • Design of digital filters with infinitive impulse response: conversion of analog filters into digital form, rational transfer function, stability, bilinear transformation, basic structures and implementations. • Digital converters: cascade of interpolator and decimator, digital down conversion, digital up conversion. • Digital modulation techniques: binary amplitude-shift keying, binary frequency-shift keying, binary phase-shift keying, quadrature phase-shift keying, quadrature amplitude modulation, orthogonal frequency division multiplexing (OFDM), direct digital synthesis (DDS).

Learning and teaching methods

• lectures, • tutorial, • lab work.

Intended learning outcomes - knowledge and understanding

On completion of this course the student will be able to • select and use appropriate building blocks for electronic systems implementation, • use of standard electronic systems for shaping, generation, conversion and processing of signals, • clarify and analyse the electronic system operation and evaluate the results.

Intended learning outcomes - transferable/key skills and other attributes

• Communication skills: oral lab work defense, manner of written expression at lab work documentation. • Use of information technology: www searching for technical data of electronic devices and systems and their applications. • Calculation skills: determination of the electronic system properties. • Problem solving: selection of standard electronic systems for solving of different system requirements. • Practical skills: lab work performing and measurement data acquisition.

Readings

• B. A. Shenoi: Introduction to Digital Signal Processing and Filter Design, Wiley-Interscience, Hoboken, 2006. • V. F. Kroupa: Direct Digital Frequency Synthesizers, Wiley-IEEE Press, New York, 1998. • V. F. Kroupa: Frequency Stability: Introduction and Applications, Wiley-IEEE Press, Hoboken, 2012. • S. Winder: Analog and Digital Filter Design, Second Edition, Newnes, Elsevier Science, Boston, 2002.

Prerequisits

None.

Additional information on implementation and assessment

The written exam may be substituted with continuous knowledge testing and assessment.

  • izr. prof. dr. IZTOK KRAMBERGER, univ. dipl. inž. el.

  • Written examination: 50
  • Laboratory work: 50

  • : 30
  • : 30
  • : 120

  • Slovenian
  • Slovenian

  • ELECTRICAL ENGINEERING (ELECTRONICS) - 1st
  • TELECOMMUNICATIONS - 1st