- Docente: Gian Piero Gibiino
- Credits: 3
- SSD: ING-INF/07
- Language: Italian
- Teaching Mode: Traditional lectures
- Campus: Bologna
- Corso: First cycle degree programme (L) in Mechatronics (cod. 6009)
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from Feb 20, 2024 to Apr 18, 2024
Learning outcomes
After successfully attending the Course, the student understands the basic analytical tools for the representation of physical quantities both in the time- and frequency-domain; knows and understands the operation of modern instrumentation, with particular emphasis to sampling-based instruments; is capable of achieving a deep insight of instrument specifications, and thus evaluating their actual performance in the application of interest and comparing different commercial instruments; knows the modern standards and methodologies for the evaluation and expression of the uncertainty of measurement; understands and is capable of applying the main algorithms for signal analysis in the frequency-domain; is capable of programming, in the framework of commercial software, the remote control both of single instruments and entire automated measurement set-ups.
Course contents
Frequency-Domain representation and analysis of signals and systems
Fourier series. Fourier transform and integral. The notion of bandwidth of a signal. Dirac operator. Transfer function and impulse response of a linear time-invariant system (LTI). Amplitude and phase response of a LTI system. Properties and examples.
Analogue-to-Digital (A/D) Conversion
Ideal A/D conversion: quantization and encoding. Quantization error. Classification of non-idealities in A/D conversion. Basic properties of stochastic processes and quantization noise. Model and effective bits for a real A/D Converter (ADC). Considerations on non-idealities and uncertainty.
Digital Sampling Oscilloscope (DSO)
Instrument fundamentals, functional block diagram. Front-end circuits for the input signal conditioning. Analogue-to-digital acquisition channel: input impedance, sample/hold, A/D converter. Trigger circuit and methods. Time base. Real-time equally-spaced sampling, Shannon/Nyquist criterion. Ideal continuous-time reconstruction of the sampled signal and practical methods based on finite impulse response digital filters. Main parameters and specifications in DSO datasheets. Considerations on non-idealities and uncertainty.
Instrumentation and techniques for spectral analysis
Spectrum Analyzer (SA): multiple-conversion architectures, bandwidth, frequency resolution, dynamic range. Main operative parameters and related optimization for best measurement accuracy in the different applications. Analysis of commercial instruments. Digital spectral analysis: sampling-based techniques and DFT/FFT algorithms. Effects of finite time record and introduction to windowing. Considerations on non-idealities and uncertainty.
Readings/Bibliography
Slides and notes edited by the Teacher. Commercial component and instrumentation datasheets. User manuals.
Reference textbook: Testo di riferimento: M. Norgia, A. Pesatori, R. Ottoboni, C. Svelto, "Misure: dai fondamenti alla strumentazione," Esculapio.
Teaching methods
Class lectures.
Assessment methods
Oral exam.
Teaching tools
PC and digital projector. Measurement set-ups available at Department of Electrical, Electronic and Information Engineering "Guglielmo Marconi" - DEI.
Office hours
See the website of Gian Piero Gibiino