Code
IGSE PHY 7506
Niveau
MSc
Graduate
PostGraduate
Semestre
Fall
Domaine
Physique
Programme
Master of Science
Langue
Anglais/English
Crédits ECTS
5
Heures programmées
50
Charge de travail
125
Organisation
Cours/TD/TP/projet/examen :Acquis d'apprentissage
By following this module, the student becomes:
- aware of the role and importance of analog-to-digital acquisition electronic interfaces for instrumentation and communications applications;
- able to identify and understand the essential electronic components of a signal acquisition system;
- sensitized to the microelectronic realization of such systems and in particular by exploiting the discrete time analog signal processing thanks to the switched capacitors technique.
He knows the main performance criteria of these components and their impact on the overall characteristics of the system; and how to use the tools of signal theory (Laplace transform, transformed in Z) for the signals conveyed by an acquisition system;
Prérequis
Knowledge of components (voltage sources, current sources, resistance, capacitance, inductance) and general laws of electricity.
Mots-clés
analog-to-digital electronic interfaces, signal theory tools, amplification, filtering, conversion
Contenu
Introduction to acquisition systems (1,5h)
Ideal AOP, basic R, L, C circuits (1,5h)
Bruit (1,5h)
Laplace transform (1,5h)
Z transform (1,5h)
MOS transistor, small signal modeling (1,5h)
Lesson/Exercices amplification (3h)
Exercice : AOP stability (1,5h)
WP1 amplification (3h)
Lesson/Exercices Discrete time electronics (3h)
WP2 Discrete time electronics (3h)
Lesson/Exercices Filtering (3h)
WP3 Filtering (3h)
Lesson/Exercices Analog to Digital Converter (3h)
WP4 ADC (3h)
Modem ADSL (1,5h)
Final Exam (2h)
Evaluation
Practical works are graded Gpw
Final Exam of 2 hours is graded Gfe
Final grade = Gpw*0,3+Gfe*0,7
Bibliographie
Patricia Desgreys, Germain Pham, Paul Chollet, Chadi Jabbour