INTERFACE SYSTEMS FOR INDUSTRIAL AUTOMATION

Ingegneria Elettronica INTERFACE SYSTEMS FOR INDUSTRIAL AUTOMATION

0622400046
DIPARTIMENTO DI INGEGNERIA INDUSTRIALE
EQF7
ELECTRONIC ENGINEERING
2022/2023

OBBLIGATORIO
YEAR OF COURSE 2
YEAR OF DIDACTIC SYSTEM 2018
AUTUMN SEMESTER
CFUHOURSACTIVITY
660LESSONS
Objectives
THE COURSE ENABLES STUDENTS TO DEEPEN THE KNOWLEDGE ABOUT DIGITAL INSTRUMENTATION FOR THE ANALYSIS OF CIRCUITS, SYSTEMS AND NETWORKS, AND THE DEVELOPMENT OF AUTOMATED MEASUREMENT SYSTEMS.



Prerequisites
FFOR THE PROFITABLE ACHIEVEMENT OF THE OBJECTIVES SET FOR THE STUDENT, THE FOLLOWING PREREQUISITES ARE REQUIRED: KNOWLEDGE ABOUT THE ACQUSITION AND PROCESSING OF SIGNALS, METROLOGICAL CHARACTERISTICS AND USE OF MEASURING INSTRUMENTS, EVALUATION OF MEASUREMENT; KNOWLEDGE OF THE PROBLEMS INHERENT WITH THE MEASURES.
Contents
AUTOMATIC MEASURING SYSTEMS AND COMMUNICATION BUS (18 HOURS OF LESSON + 8 HOURS OF LABORATORY PRACTICE)
LOGIC STATE ANALYZER CONTROL CARDS IEEE 1451 SMART TRANSDUCER (10 HOURS OF LESSON)
NUMERICAL FILTERS (6 HOURS OF LESSON + 6 HOURS OF LABORATORY PRACTICE)
DESIGN AND REALIZATION OF AUTOMATIC AND INTELLIGENT MEASURING SYSTEMS. (2 HOURS OF LESSON + 10 HOURS OF LABORATORY PRACTICE)
Teaching Methods
THE COURSE INCLUDES THEORETICAL LESSONS AND LABORATORY EXERCISES. DURING THE LABORATORY EXERCISES, STUDENTS, DIVIDED BY WORKING GROUPS, ARE ASSIGNED A PROJECT TO DEVELOP. THE PROJECT INCLUDES ALL COURSE CONTENT IN A UNITARY WAY AND ALLOWS STUDENTS TO ACQUIRE THE SKILLS OF DESIGNING, REALIZATION AND CHARACTERIZATION OF AUTOMATIC MEASURING SYSTEMS.
Verification of learning
THE ACHIEVEMENT OF THE OBJECTIVES OF THE COURSE IS CERTIFIED BY PASSING AN EXAM WITH EVALUATION IN THIRTIES (THE MINIMUM LEVEL OF PASSING CORRESPONDS TO "18" AND THE MAXIMUM TO "30 cum laude"), WHICH PROVIDES A SINGLE ORAL TEST, OF THE DURATION AVERAGE INDICATIVE OF 60 MINUTES, AND AIMED AT VERIFYING: 1) LEARNING OF THE TOPICS COVERED IN THE HOURS OF LECTURE TEACHING; 2) THE CONTRIBUTION TO THE GROUP PROJECT REALIZED ON A TOPIC ASSIGNED BY THE TEACHER; 3) THE EXPOSURE CAPACITY OF THE TOPICS ADDRESSED; 4) THE AUTONOMY OF JUDGMENT IN PROPOSING THE SOLUTION AND IN THE DESIGN OF AN AUTOMATIC MEASURING SYSTEM.
IN MORE DETAIL, THE ORAL EXAM INCLUDES THREE QUESTIONS: THE FIRST WITH REFERENCE TO THE REALIZED PROJECT WILL BE AIMED AT VERIFYING LABVIEW KNOWLEDGE AND ABILITY TO DESIGN AND REALIZE THE AUTOMATIC MEASURING SYSTEMS WHILE THE OTHER TWO AREAS ON THE ARGUMENTS.
TO PASS THE EXAM IT IS NECESSARY TO REACH SUFFICIENCY BOTH IN THE VERIFICATION OF THE LEARNING OF THE TOPICS COVERED IN THE HOURS OF THEORY AND IN THE VERIFICATION (REALIZATION AND DESCRIPTION CAPACITY) OF THE ASSIGNED LABORATORY PROJECT.

THE STUDENT ACHIEVES THE LEVEL OF EXCELLENCE IF THEY SHOW THE ABILITY TO MAKE CONNECTIONS BETWEEN THE THEORETICAL TOPICS COVERED AND SHOWS THE FULL MASTERY OF THE ACTIVITIES CARRIED OUT DURING THE PROJECT.
Texts

CLYDE F. COOMBS, JR “ELECTRONIC INSTRUMENT HANDBOOK”, SECOND EDITION MCGRAW-HILL, INC.
SIGFRIDO LESCHIUTTA, “MISURE ELETTRONICHE STRUMENTAZIONE E TELECOMUNICAZIONI”, PITAGORA EDITRICE BOLOGNA.

LECTURE NOTES PROVIDED BY THE TEACHER
More Information
THE COURSE'S LANGUAGE IS THE ITALIAN
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