CODICE 94631 ANNO ACCADEMICO 2021/2022 CFU 5 cfu anno 1 ENGINEERING FOR NATURAL RISK MANAGEMENT 10553 (LM-26) - SAVONA SETTORE SCIENTIFICO DISCIPLINARE ING-INF/01 LINGUA Inglese SEDE SAVONA PERIODO 2° Semestre MODULI Questo insegnamento è un modulo di: TELECOMMUNICATION NETWORKS AND DISTRIBUTED ELECTRONIC SYSTEM MATERIALE DIDATTICO AULAWEB OBIETTIVI E CONTENUTI OBIETTIVI FORMATIVI Basic concepts on technologies for modern electronic embedded systems. Introduction to sensor devices and sensing methods. Embedded electronic sensing systems for Internet of Things (IoT) and for distributed monitoring. Basic concepts of radio transceivers. Distributed wireless sensing networks for environmental monitoring. Application examples. OBIETTIVI FORMATIVI (DETTAGLIO) E RISULTATI DI APPRENDIMENTO Attendance and active participation in the proposed educational activities (lectures and laboratory activities) and individual study will enable the student to: - understanding basic electrical variables e.g. current, voltage, power, energy - understanding the behavior of a simple linear electric circuit - understanding the behavior of a simple RC circuit - understanding the classification of materials based on their electrical properties e.g. insulators, conductors and semiconductors - learning how to analyze the behavior of an electric circuit - understanding the behavior and application of the diode - understanding the behavior of a MOS transistor as signal amplifier - understanding the behavior of the CMOS inverter and of NOR and NAND gates circuits - understanding the evaluation of time response and power/energy consumption of CMOS logic gate circuits PREREQUISITI Basic mathematic skills MODALITA' DIDATTICHE The course is based on class lectures (about 40 hours) and includes a lab exercise on the programming and usage of an IoT node for environmental monitoring EXAM DESCRIPTION Final evaluation is an oral test. ASSESSMENT METHODS The oral test checks the knowledge of the students of the course content. Three examinations are planned in the summar session and three during the winter session OFFICE HOURS FOR STUDENTS On appointment PROGRAMMA/CONTENUTO Course content: Introduction to linear electric components and circuits: resistors, independent current and voltage generators, Kirchhoff current and voltage laws. Capacitor and simple RC circuits Classification of materials: insulators, conductors and semiconductors Semiconductor materials as the basis of solid state (modern) electronics Electronic devices: diodes and transistors. The MOS transistor as signal amplifier The CMOS inverter circuit Power consumption, time response of the CMOS inverter Static logic gates: NOR and NAND Analog to Digital and Digital to Analog converters Sensors Moore’s law and technology scaling Digital electronic circuits Combinational logic circuits Sequential logic circuits Finite State Machines Embedded data processing systems: microprocessors and microcontrollers. Embedded radio transceivers IoT systems for environmental monitoring TESTI/BIBLIOGRAFIA The course material is published on Aulaweb. Textbooks: M. Parodi, M. Storace, “Linear and Nonlinear Circuits: Basic & Advanced Concepts”, https://doi.org/10.1007/978-3-319-61234-8, Print ISBN 978-3-319-61233-1, Springer International Publishing AG 2018.MODALITA' D'ESAME Sedra/Smith, Microelectronic Circuits, Oxford University Press Inc, ISBN 9780199339143 DOCENTI E COMMISSIONI DANIELE CAVIGLIA Ricevimento: Su appuntamento ORAZIO AIELLO Commissione d'esame RAFFAELE BOLLA (Presidente) DANIELE CAVIGLIA (Presidente) MAURIZIO VALLE (Presidente) CHRISTIAN GIANOGLIO LEZIONI INIZIO LEZIONI https://courses.unige.it/10553/p/students-timetable Orari delle lezioni L'orario di questo insegnamento è consultabile all'indirizzo: Portale EasyAcademy ESAMI MODALITA' D'ESAME Oral Calendario appelli Data appello Orario Luogo Tipologia Note 12/01/2022 09:30 SAVONA Orale 09/02/2022 09:30 SAVONA Orale 08/06/2022 09:30 SAVONA Orale 13/07/2022 09:30 SAVONA Orale 14/09/2022 09:30 SAVONA Orale