Electronic Systems Laura Falaschetti
KNOWLEDGE AND UNDERSTANDING:
The course aims to provide the necessary knowledge for designing digital microcontrolled-based electronic systems. To this end the fundamental architectures of microcontrollers, the elements of assembly language programming, the DC voltage supplies will be studied.CAPACITY TO APPLY KNOWLEDGE AND UNDERSTANDING:
The course is intended to train the students so that they acquire the capability of applying the knowledge to the design specifications, to the selection and programming of digital electronic systems to obtain the desired performance, to the using of tools for programming microcontrollers.TRANSVERSAL SKILLS:
The course provides a multidisciplinary background on hardware and software for the design of digital microcontrolled-based electronic systems, which can be spent in the fields of biomedical engineering, telecommunications, automatic control and information technology in general.
Microcontrollers: generality, PIC16F84A, architecture, file register set, instruction set, timing, interrupt.
PIC 16F873A and PIC 16F887. Serial Communication: SPI, Microwire, I2C, asyncronous communication, USART. ADC and DAC conversion. PIC 18FXX2. Basics of assembly programming. Designing electronic system with microcontrollers. DC voltage supplies: generality, voltage references, series voltage regulators, switching voltage regulators.
Development of the examination
LEARNING EVALUATION METHODS
LEARNING EVALUATION CRITERIA
To pass the exam the student will show to know all the metodologies and techniques for designing an electronic systems
LEARNING MEASUREMENT CRITERIA
A score in the range 18-30 will be given as a final grade
FINAL MARK ALLOCATION CRITERIA
The oral examination will be focused on questions concerning the course topics and the discussion of a specific design with refernece to the approach used and the results obtained.
Martin Bates, PIC Microcontrollers, Elsevier, 2005.
Tim Wilmshurst, Designing Embedded Systems with PIC Microcontrollers, Elsevier, 2007.
- Ingegneria Biomedica (Corso di Laurea Triennale (DM 270/04))
- Ingegneria Elettronica (Corso di Laurea Triennale (DM 270/04))