Academic year2016/17
CourseMECHANICAL ENGINEERING
Code621II
Credits6
PeriodSemester 2
LanguageItalian
Modules | Area | Type | Hours | Teacher(s) |
ELEMENTI DI ELETTRONICA | ING-INF/01 | LEZIONI | 60 | |
Programma non disponibile nella lingua selezionata
Knowledge
Students are expected to acquire basic knowledge in the field of analog and digital electronics.
Particularly, in the field of analog electronics:
- Knowledge of the general characteristics of amplifiers (gain, input/output impedance, frequency response, etc.);
- Knowledge of the main characteristics of operational amplifiers (OPAMPS);
- Knowledge of the most common systems based on OPAMPS (amplifiers, current-voltage converters, comparators, filters, etc.);
- Knowledge of the working principle of analog-to-digital and digital-to-analog converters and their main characteristics;
- Ability to design simple electronic amplifiers.
In the field of digital electronics:
- Knowledge of the binary numeral system;
- Knowledge of boolean algebra;
- Knowledge on the realization of logic networks;
- Knowledge on the implementation of sequential logic networks;
- Knowledge about the architecture of a digital processing system.
Assessment criteria of knowledge
During the oral exam the student must be able to demonstrate his/her knowledge of the course material and be able to discuss the reading matter thoughtfully and with propriety of expression.
Methods:
Teaching methods
Delivery: face to face
Learning activities:
Attendance: Mandatory
Teaching methods:
Syllabus
In the field of analogue systems the course provides basic information concerning:
- General characteristics of amplifiers (gain, input and output impedances, frequency response, etc.);
- Main characteristics of operational amplifiers (OPAMPS);
- The most commonly used systems based on OPAMPS (amplifiers, current-voltage converters, comparators, filters, etc.);
- Principle of operation of the analog-to-digital and digital-to-analog converters;
In the field of digital electronics, the course provides basic information concerning:
- Positional numeral systems;
- Representation of positive integers;
- Representation of relative numbers;
- Postulates and theorems of Boolean algebra;
- Elementary logic gates;
- Most common Combinational Networks;
- Flip-Flops;
- Elementary Sequential Networks;
- Parts constituting a Digital Processor: ALU, CPU, RAM, ROM, I/O.
Bibliography
It is recommended to deepen the information provided during the lessons, which are provided Transparencies, on the following books:
Jacob Millmann & Arvin Grabel, MICROELECTRONICS, McGraw-Hill;
Donald D. Givone, PRINCIPLES AND DIGITAL DESIGN, McGraw-Hill
Updated: 14/11/2016 17:27